CINXE.COM

Modelithics Keysight ADS MVP Model Listing - Modelithics, Inc.

<!DOCTYPE html> <html> <head> <!-- Global site tag (gtag.js) - Google AdWords: 1009825973 --> <script async src="https://www.googletagmanager.com/gtag/js?id=AW-1009825973"></script> <script src="https://www.google.com/recaptcha/api.js" async defer></script> <!-- Clarity tracking code for https://www.modelithics.com --> <script> (function (c, l, a, r, i, t, y) { c[a] = c[a] || function () { (c[a].q = c[a].q || []).push(arguments) }; t = l.createElement(r); t.async = 1; t.src = "https://www.clarity.ms/tag/" + i + "?ref=bwt"; y = l.getElementsByTagName(r)[0]; y.parentNode.insertBefore(t, y); })(window, document, "clarity", "script", "j1qwrz8gsv"); </script> <script type="text/javascript"> (function (c, l, a, r, i, t, y) { c[a] = c[a] || function () { (c[a].q = c[a].q || []).push(arguments) }; t = l.createElement(r); t.async = 1; t.src = "https://www.clarity.ms/tag/" + i; y = l.getElementsByTagName(r)[0]; y.parentNode.insertBefore(t, y); })(window, document, "clarity", "script", "j92x51e8y8"); </script> <meta name="CCBot" content="nofollow"> <meta charset="utf-8" /> <meta name="viewport" content="width=device-width, initial-scale=1.0"> <meta name="description" content="Specializing in RF, microwave and millimeter-wave measurements and measurement-based modeling of RF and microwave components and semiconductor devices"> <meta name="google-site-verification" content="zTbwVXmUx1ugNO29lEantiflVD7RbdG5ODstj-CMtEU" /> <title>Modelithics Keysight ADS MVP Model Listing - Modelithics, Inc.</title> <link href="/Content/css?v=zYUDQCX7ZDxaoRSiYXc6XSr1vhJszr_rn-NAXQ4W0RA1" rel="stylesheet"/> <script src="/bundles/modernizr?v=wBEWDufH_8Md-Pbioxomt90vm6tJN2Pyy9u9zHtWsPo1"></script> <script type="application/ld+json"> { "@context": "http://schema.org", "@type": "Organization", "url": "https://www.modelithics.com", "logo": "https://www.modelithics.com/Images/Logo/Modelithics_search.png" } </script> <script type="application/ld+json"> { "@context": "http://schema.org", "@type": "Person", "name": "Modelithics", "url": "https://www.modelithics.com/", "sameAs": ["http://www.facebook.com/modelithics", "https://www.youtube.com/channel/UCqza4urCNHXRtnyO-K0w44g", "http://www.linkedin.com/company/modelithics-inc-", "https://twitter.com/modelithics_"] } </script> <script> (function (i, s, o, g, r, a, m) { i['GoogleAnalyticsObject'] = r; i[r] = i[r] || function () { (i[r].q = i[r].q || []).push(arguments) }, i[r].l = 1 * new Date(); a = s.createElement(o), m = s.getElementsByTagName(o)[0]; a.async = 1; a.src = g; m.parentNode.insertBefore(a, m) })(window, document, 'script', 'https://www.google-analytics.com/analytics.js', 'ga'); ga('create', 'UA-17991080-1', 'auto'); ga('send', 'pageview'); </script> <link rel="stylesheet" type="text/css" href="https://cdn.jsdelivr.net/npm/cookieconsent@3/build/cookieconsent.min.css" /> <link rel="stylesheet" type="text/css" href="https://cdn.jsdelivr.net/npm/cookieconsent@3/build/cookieconsent.min.css" /> <script src='https://www.google.com/recaptcha/api.js'></script> </head> <body> <div class="container logoNew"> <img src="/Images/Logo/ModelithicsLogo235x25.png" height="28" width="255" alt="Modelithics, Inc Logo" /> <ul class="nav navbar-nav navbar-right"> <a href='/freetools'> <img src="/Images/Free Tools/Try151229_150x150.png" height="63" width="60" )' /> </a> <li><a href="/home/whatsnew">What&#39;s New</a></li> <li><a href="/requests/exemplar?company=Modelithics">Free Trial Request</a></li> <li><a href="/account/register" id="registerLink">Register</a></li> <li><a href="/account/login" id="loginLink">Log in</a></li> <li> <script src="https://addsearch.com/js/?key=c9e49c4c2864c40df799d7b5c86f7502"></script> </li> </ul> <h6 class="small-font"><strong>World’s Best RF & Microwave Simulation Models</strong></h6> </div> <nav class="navbar navbar-custom navbar-static-top yamm" role="navigation"> <div class="container"> <div class="navbar-header"> <ul class="nav navbar-nav "> <li><a href="/">Home</a></li> <li class="dropdown"> <a href="#" class="dropdown-toggle" data-toggle="dropdown">Products <span class="caret"></span></a> <ul class="dropdown-menu" role="menu"> <li><a href="/model">COMPLETE Library</a></li> <li class="divider"></li> <li><a href="/model/emlibraries">3D EM Libraries</a></li> <li class="divider"></li> <li><a href="/model/clr">CLR Library</a></li> <li class="divider"></li> <li><a href="/model/mmwave5g">mmWave &amp; 5G Library</a></li> <li class="divider"></li> <li><a href="/model/scl">System Components Library</a></li> <li class="divider"></li> <li><a href="/mvp/vsl">GaN Sponsored Libraries</a></li> <li class="divider"></li> <li><a href="/mvp/vsl">Other Sponsored Libraries</a></li> <li class="divider"></li> <li><a href="/model/prerelease">Pre-Release Library</a></li> <li class="divider"></li> <li><a href="/home/fixtures">Test Accessories</a></li> </ul> </li> <li class="dropdown"> <a href="#" class="dropdown-toggle" data-toggle="dropdown">Services<span class="caret"></span></a> <ul class="dropdown-menu" role="menu"> <li><a href="/home/services">Summary</a></li> <li class="divider"></li> <li><a href="/model/measurement">Characterization</a></li> <li class="divider"></li> <li><a href="/home/emmodeling">3D Modeling</a></li> <li class="divider"></li> <li><a href="/home/ganmodeling">GaN Modeling</a></li> <li class="divider"></li> <li><a href="/home/modeling">Modeling</a></li> <li class="divider"></li> <li><a href="/literature/xparfiles">X-Parameters™*</a></li> </ul> </li> <li class="dropdown"> <a href="#" class="dropdown-toggle" data-toggle="dropdown">Free Tools<span class="caret"></span></a> <ul class="dropdown-menu" role="menu"> <li><a href="/freetools">Summary</a></li> <li class="divider"></li> <li><a href="/model/freemodels">SELECT+ Library</a></li> <li class="divider"></li> <li><a href="/model/sparamvendors">S-Parameters</a></li> <li class="divider"></li> <li><a href="/literature/examplefiles">Example Files</a></li> <li class="divider"></li> <li><a href="/model/xparams">X-Parameters™*</a></li> <li class="divider"></li> <li><a href="/mvp/vsl">Vendor Sponsored Libraries</a></li> <li class="divider"></li> <li><a href="/home/university">University Program</a></li> <li class="divider"></li> <li><a href="/freetools/spur">Mixer Spur Table</a></li> <li class="divider"></li> <li><a href="/freetools/roi">ROI Calculator</a></li></a> </li> </ul> </li> <li><a href="/home/testimonials">Testimonials</a></li> <li class="dropdown yamm-fw"> <a href="#" class="dropdown-toggle" data-toggle="dropdown">MVP <span class="caret"></span></a> <ul class="dropdown-menu" role="menu"> <div class="yamm-content"> <div class="row"> <div class="col-md-4"> <a href="/MVP"><img src="/Images/Logo/MVPLogoWhiteCrop.png" height="50" width="245" /></a></div> <div class="col-md-8 orient"><h2><span class="yletters"><center>Modelithics Vendor Partners (MVP)</center></span></h2></div> </div> <div class="row"> <div class="col-md-4 settext"> <p> <br /> <a href="/FreeDownloads/Brochures/MVPProgramBrochure_2019.pdf"></a> </a> Modelithics partners with leading suppliers in equipping designers with the exceptionally accurate models and measurement data. Many device and component vendors sponsor <span class="yletters"> <strong>FREE</strong></span> use of models as <span class="yletters"> <strong>Sponsoring</strong> </span> & <span class="yletters"> <strong>Strategic</strong> </span>MVPs. <div>&nbsp;</div> <p class="yletters"><strong>View the available Vendor Sponsored Libraries</strong></p> <div class="col-md-6"> <a href="/MVP"> <img src="/Images/mvp/SponsoringMVP_logo.png" class="img-responsive" height="125" width="165" /></a> </div> <div class="col-md-6"> <a href="/MVP"><img src="/Images/mvp/StrategicMVP_logo.png" class="img-responsive" height="125" width="165" /></a> </div> </div> <div class="col-md-3 settext"> <li><a href="/mvp/amotech" style="color:yellow">Amotech</a></li> <li><a href="/mvp/anritsu">Anritsu</a></li> <li><a href="/mvp/hfss">Ansys&#174; HFSS™</a></li> <li><a href="/mvp/nuhertz">Ansys&#174; NuHertz&#174;</a></li> <li><a href="/mvp/api_inmet">API Technologies</a></li> <li><a href="/mvp/atlantic">Atlantic-Tech</a></li> <li><a href="/mvp/awr">Cadence&#174; AWR Design Environment&#174;</a></li> <li><a href="/mvp/clarity">Cadence&#174; Clarity™ 3D Solver</a></li> <li><a href="/mvp/cadence">Cadence&#174; Spectre&#174; RF Option</a></li> <li><a href="/mvp/cel">CEL</a></li> <li><a href="/mvp/chilisin">Chilisin</a></li> <li><a href="/mvp/dalicap" style="color:yellow">Dalicap</a></li> <li><a href="/mvp/coilcraft" style="color:yellow">Coilcraft</a></li> <li><a href="/mvp/electrophotonics">Electro-Photonics </a></li> <li><a href="/mvp/ema">EMA Design Automation</a></li> <li><a href="/mvp/exxelia">Exxelia</a></li> <li><a href="/mvp/gowanda">Gowanda</a></li> <li><a href="/mvp/guerrillarf">Guerrilla RF</a></li> <li><a href="/mvp/ieh" style="color:yellow">IEH Corporation</a></li> </div> <div class="col-md-3 settext"> <li><a href="/mvp/icmicrowave">Inter-Continental Microwave</a></li> <li><a href="/mvp/ims" style="color:yellow">Intl Mfg Services</a></li> <li><a href="/mvp/johanson" style="color:yellow">Johanson</a></li> <li><a href="/mvp/kemet" style="color:yellow">KEMET</a></li> <li><a href="/mvp/ads">Keysight ADS</a></li> <li><a href="/mvp/genesys">Keysight Genesys</a></li> <li><a href="/mvp/rfpro">Keysight RFPro</a></li> <li><a href="/mvp/systemvue">Keysight SystemVue</a></li> <li><a href="/mvp/knowles" style="color:yellow">Knowles</a></li> <li><a href="/mvp/avx" style="color:yellow">Kyocera-AVX</a></li> <li><a href="/mvp/macom" style="color:yellow">MACOM</a></li> <li><a href="/mvp/markimicrowave">Marki Microwave</a></li> <li><a href="/mvp/matlab">MathWorks MATLAB</a></li> <li><a href="/mvp/rsources#Maury">Maury Microwave</a></li> <li><a href="/mvp/microlambda">Micro Lambda</a></li> <li><a href="/mvp/mwt" style="color:yellow">Microwave Technology</a></li> <li><a href="/mvp/minicircuits" style="color:yellow">Mini-Circuits</a></li> <li><a href="/mvp/ppi" style="color:yellow">Passive Plus, Inc.</a></li> <li><a href="/mvp/partsdirect">partsdirect, Inc.</a></li> <li><a href="/mvp/piconics" style="color:yellow">Piconics</a></li> </div> <div class="col-md-2 settext"> <li><a href="/mvp/presidio" style="color:yellow">Presidio</a></li> <li><a href="/mvp/qorvo" style="color:yellow">Qorvo</a></li> <li><a href="/mvp/rfmw">RFMW</a></li> <li><a href="/mvp/richardson">Richardson Electronics</a></li> <li><a href="/mvp/rogers">Rogers</a></li> <li><a href="/mvp/rjr">RJR Technologies</a></li> <li><a href="/mvp/smithsinterconnect" style="color:yellow">Smiths Interconnect</a></li> <li><a href="/mvp/sonnet">Sonnet</a></li> <li><a href="/mvp/susumu" style="color:yellow">Susumu</a></li> <li><a href="/mvp/tagoretech" style="color:yellow">TagoreTech</a></li> <li><a href="/mvp/tecdia" style="color:yellow">Tecdia</a></li> <li><a href="/mvp/tti">Transline Technology</a></li> <li><a href="/mvp/vanguard">Vanguard</a></li> <li><a href="/mvp/vdi">Virginia Diodes</a></li> <li><a href="/mvp/vishay" style="color:yellow">Vishay</a></li> <li><a href="/mvp/barry">Vishay Barry</a></li> <li><a href="/mvp/wurth" style="color:yellow">W&#252;rth Elektronik</a></li> </div> </div> <div>&nbsp;</div> <div class="row"> <div class="col-md-7 settext2"> <a href="/mvp/VSL" class="yletters"><span class="yletters">Learn more about Modelithics Vendor Partner Program</span></a></p> <div>&nbsp;</div> <p> <a href="/FreeDownloads/Brochures/MVP Brochure_2017.5.15.pdf"> <img src="/Images/DownloadIcon/pdf.jpg" height="30" width="30" />&nbsp; <span class="yletters">Modelithics MVP Brochure</span> </a><!--</a>--> </p> </div> <div class="col-md-3 settext"> <li><strong><u>Media Partners</u></strong></li> <li><a href="/mvp/epci">European Passive Components Institute</a></li> <li><a href="/mvp/everythingrf">everything RF</a></li> <li><a href="/mvp/hfe">High Frequency Electronics</a></li> <li><a href="/mvp/mwj">Microwave Journal</a></li> <li><a href="/mvp/mwrf#MWRF">Microwaves &amp; RF </a></li> <li><a href="/mvp/mpd#MPD">Microwave Product Digest</a></li> </div> <div class="col-md-2 settext"> <li><strong><u>Consultants Corner</u></strong></li> <li><a href="/mvp/consultants#Aerospace Consulting, LLC">Aerospace Consulting, LLC</a></li> <li><a href="/mvp/consultants#PhilJobsonConsulting">Phil Jobson</a></li> <li><a href="/mvp/consultants#Pragma-Design">Pragma Design</a></li> <li><a href="/mvp/consultants#RFdude">RFdude</a></li> <li><a href="/mvp/consultants#Signal Edge Solutions">Signal Edge Solutions</a></li> </div> </div> </div> </ul> </li> <li class="dropdown"> <a href="#" class="dropdown-toggle" data-toggle="dropdown">Resources <span class="caret"></span></a> <ul class="dropdown-menu" role="menu"> <li><a href="/mvp/rsources">Designer Resources</a></li> <li><a href="/mvp/consultants">Consultants</a></li> </ul> </li> <li class="dropdown"> <a href="#" class="dropdown-toggle" data-toggle="dropdown">Literature <span class="caret"></span></a> <ul class="dropdown-menu" role="menu"> <li><a href="/Literature/AppNote">Application Notes</a></li> <li class="divider"></li> <li><a href="/Literature/Blogs">Blogs</a></li> <li class="divider"></li> <li><a href="/Literature/Brochure">Brochures</a></li> <li class="divider"></li> <li><a href="/Literature/Presentation">Presentations</a></li> <li class="divider"></li> <li><a href="/Literature/PublishedPaper">Published Articles</a></li> <li class="divider"></li> <li><a href="/Literature/ReleaseNote">Release Notes</a></li> <li class="divider"></li> <li><a href="/Literature/WhitePaper">White Papers</a></li> <li class="divider"></li> <li><a href="/Literature/Videos">Videos</a></li> </ul> </li> <li><a href="/support">Support</a></li> <li class="dropdown"> <a href="#" class="dropdown-toggle" data-toggle="dropdown">Company <span class="caret"></span></a> <ul class="dropdown-menu" role="menu"> <li><a href="/home/about">About</a></li> <li class="divider"></li> <li><a href="/home/careers">Careers</a></li> <li class="divider"></li> <li><a href="/home/contact">Contact Us</a></li> <li class="divider"></li> <li><a href="/home/event">Events</a></li> <li class="divider"></li> <li><a href="/home/mission">Mission</a></li> <li class="divider"></li> <li><a href="/home/news">News</a></li> <li class="divider"></li> <li><a href="/marketing">Promotions</a></li> <li class="divider"></li> <li><a href="/home/university">University Program</a></li> <li class="divider"></li> <li><a href="/home/whatwedo">What We Do</a></li> </ul> </li> </div> </div> </nav> <!-- End Navbar --> <div class="container container-fluid body-content"> <head> <title>Keysight Technologies’ Advanced Design System (ADS) MVP Model Listing</title> <!-- CSS --> <link href="/Content/jquery.dataTables.min.css" rel="stylesheet" /> <link rel="stylesheet" type="text/css" href="/Content/dataTables.fixedHeader.css"> <!-- Scripts --> <script src="/Scripts/jquery-1.11.3.min.js"></script> <script src="/Scripts/jquery.dataTables.min.js"></script> <script type="text/javascript" charset="utf8" src="/Scripts/dataTables.fixedHeader.js"></script> </head> <div class="row"> <div class="col-md-4"> <a href="http://www.keysight.com/en/pc-1297113/advanced-design-system-ads?nid=-34346.0&amp;cc=US&amp;lc=eng" target=" _blank"><img src=/Images/MVP/ADS.png target="blank" width=175 height=100></a> <a class="dtr-inline" href="http://www.keysight.com/en/pc-1297113/advanced-design-system-ads?nid=-34346.0&amp;cc=US&amp;lc=eng" target=" _blank"><img src="/Images/mvp/Keysight_CP_SolutionsPartner_Clr_RGB..jpg" target="blank" width="180" height="96"></a> </div> <div class="col-md-4 pull-left"> <h4> <strong>Keysight Technologies' Advanced Design System (ADS)</strong></h4> </div> <div> <div class="col-md-4 top-left"> <br /> <img src="/Images/mvp/New_MVP_Logo.png" class="img-responsive " width="230" height="160">; </div> </div> </div> <div class="row"> <div class="col-md-8 "> <p id="mvp"> <p>Changing the world starts with having the right tools. Speed through the development cycle with PathWave design and simulation software. Then, confidently validate your prototypes with Keysight instruments and application software. </p> <p>PathWave Advanced Design System (ADS) is the world’s leading electronic design automation software for RF, microwave, and high-speed digital applications. ADS pioneers the most innovative and powerful integrated circuit-3DEM-thermal simulation technologies used by leading companies in the wireless, high-speed networking, defense-aerospace, automotive and alternative energy industries. For 5G, IoT, multi-gigabit data link, radar, satellite and high-speed switched mode power supply designs, ADS provides an integrated simulation and verification environment to design high-performance hardware compliant with the latest wireless, high speed digital and military standards.</p> <p> Start your next design with the most <a href="/Model/DesignEnv">accurate</a> and <a href="/Model/WellDocumented" target="_blank">well documented</a> RF, microwave and mm-wave simulation models in the industry! Modelithics passive and active, <a href="/Model/Measurement">measurement-based</a> simulation models integrate seamlessly with the latest electronic design automation (EDA) simulation tools. </p> <p> Visit the <a href="/Model">Modelithics COMPLETE Library®</a> for more information on the full capabilities and advantages of Modelithics <strong>high accuracy</strong> models. Our goal is to help you <strong>achieve first pass design success!</strong> </p> </p> </div> <div class="col-md-4"> <center> <p> <a href="/requests/exemplar?company=ADS&qrequest=quote"><img src="/Images/Misc/Quote.png" class=" img-responsive" width=" 180" height="80"></a> <p><strong>Interested in a free, no obligation quote for Modelithics libraries?</strong><br /></p> </p> <div>&nbsp;</div> <p> <a href="/requests/exemplar?company=ADS"><img src="/Images/Misc/FreeTrial.png" class=" img-responsive" width=" 180" height="80"></a> </p> </center> <p><strong>Request a FREE trial to evaluate Modelithics high accuracy simulation models by clicking the free trial image above.</strong></p> <p> <strong>Learn more <a href="http://www.keysight.com/en/pc-1297113/advanced-design-system-ads?nid=-34346.0.00&cc=US&lc=eng&cmpid=zzfindeesof-ads" target="_blank"> about ADS </a>and apply for a <a href="https://edaapps.software.keysight.com/cgi-bin/eda-evaluation/request.cgi?product=ads&cc=US&lc=eng" target="_blank">free ADS trial.</a> </strong> </p> <p> Learn more about <a href="/MVP/Genesys">Keysight PathWave RF Synthesis (Genesys)</a> </p> <p> Learn more about <a href="/MVP/SystemVue">Keysight PathWave System Design (SystemVue)</a> </p> <p> <a href="../Marketing/Keysight">Keysight MVP Spotlight Page</a> </p> </div> </div> <div class="row"> <div class="col-md-4"> <iframe width="360" height="189" src="https://www.youtube-nocookie.com/embed/xpiPzhE0fSI" frameborder="0" allow="accelerometer; autoplay; encrypted-media; gyroscope; picture-in-picture" allowfullscreen></iframe> <div><h5><strong>Modelithics QuickStart for ADS</strong> </h5></div> </div> <div class="col-md-4"> <a href="/FreeDownloads/Brochures/ADSDatasheet.pdf"> <img src="/Images/Misc/ADSBrochure.png" height="189" width="300" /></a>< <div class="ADSBro"><h5><strong>Modelithics COMPLETE for ADS Brochure</strong></h5></div> </div> <div class="col-md-4"> <ul class="list-group"> <li class="HeaderListGroup list-group-item active">Brochures/Release Notes</li> <a class="list-group-item" href="/account/dloadtrackerfree?dtype=2&amp;lit=58&amp;returnUrl=%2FFreeDownloads%2FBrochures%2FADSDatasheet.pdf&amp;littype=2" target="_blank">Modelithics COMPLETE Library for ADS</a> <a class="list-group-item" href="/account/dloadtrackerfree?dtype=2&amp;lit=62&amp;returnUrl=%2FFreeDownloads%2FBrochures%2FExemplarDatasheetADS_2014_final.pdf&amp;littype=2" target="_blank">Modelithics EXEMPLAR Library for ADS</a> <a class="list-group-item" href="/account/dloadtrackerfree?dtype=2&amp;lit=1483&amp;returnUrl=%2FFreeDownloads%2FBrochures%2FModelithicsSELECTforADS_final.pdf&amp;littype=2" target="_blank">Modelithics SELECT+ Library for ADS</a> <a class="list-group-item" href="/account/dloadtrackerfree?dtype=7&amp;lit=1545&amp;returnUrl=https%3A%2F%2Fwww.modelithics.com%2Faccount%2Fdloadtracker%3Fdtype%3D8%26lit%3D10055%26returnUrl%3D%252FDownloads%252FReleaseNotes%252FMDLX_v24.5_ReleaseNotes_ADS.pdf%26littype%3D7&amp;littype=7" target="_blank">Modelithics COMPLETE for ADS v24.5 Release Notes</a> </ul> </div> </div> <div class="tabbable SpaceTop "> <ul class="nav nav-pills"> <li class="active"><a href="#components" data-toggle="tab">Component Listing</a></li> <li><a href="#xparams" data-toggle="tab">*X-Parameters</a></li> <li><a href="#freemodels" data-toggle="tab">Free Models</a></li> <li><a href="#presentations" data-toggle="tab">Related Presentations</a></li> <li><a href="#literature" data-toggle="tab">Related Literature</a></li> <li><a href="#videos" data-toggle="tab">Related Videos</a></li> <li><a href="#promos" data-toggle="tab">News/Promotions</a></li> <li><a href="#blogs" data-toggle="tab">Blogs</a></li> </ul> <div>&nbsp;</div> <div class="tab-content"> <div id="components" class="tab-pane active "> <div class="container"> <div class="row"> <div class="col-md-12 "> <!-- Products Table --> <table class="table table-striped table-hover display compact table-responsive"> <thead> <tr class="text-products"> <th>More Info</th> <th width="10%"> Vendor </th> <th width="10%"> <img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /> &nbsp; Part Number </th> <th width="10%"> <img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" />&nbsp; Model </th> <th width="10%"> Body Style </th> <th width="10%"> Component </th> <th width="10%"> Max Freq (GHz) </th> <th width="10%"> Power Out (dBm) </th> <th width="10%"> Part Values </th> <th width="10%"> Features </th> </tr> </thead> <tbody> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AA101-80 data-key-5=%20% data-key-6=The%20%ATT-ALP-AA101-001%20%is%20%a%20%substrate-scalable,%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Alpha%20%AA101-80%20%5%20%bit%20%GaAs%20%IC%20%FET%20%digital%20%attenuator.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%The%20%nonlinear%20%compression%20%effect%20%is%20%also%20%captured%20%at%20%multiple%20%attenuation%20%levels. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Alpha <td width="10%"> <a href=/models/Vendor/Alpha/AA101-80.pdf target="blank">AA101-80</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=41&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-ALP-AA101-001_datasheet.pdf" target="blank">ATT-ALP-AA101-001</a> </td> <td width="10%"> </td> <td width="10%"> Attenuator </td> <td width="10%"> 3.5 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=A60S data-key-5=%20% data-key-6=The%20%CAP-AMH-0603-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%P/N%20%A60S%20%surface%20%mount chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://global.amotech.co.kr/wp/).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency. The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/A60S.pdf target="blank">A60S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1328&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-0603-001_datasheet.pdf" target="blank">CAP-AMH-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.1 to 100 pF </td> <td width="10%"> OS, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=A60F data-key-5=%20% data-key-6=The%20%CAP-AMH-0805-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%P/N%20%A60F%20%surface%20%mount chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://global.amotech.co.kr/wp/).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency. The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/A60F.pdf target="blank">A60F</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1329&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-0805-001_datasheet.pdf" target="blank">CAP-AMH-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 25 </td> <td width="10%"> </td> <td width="10%"> 0.5-240 pF </td> <td width="10%"> OS, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=A80B data-key-5=%20% data-key-6=The%20%CAP-AMH-1111-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%P/N%20%A80B%20%surface%20%mount%20%chip capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://global.amotech.co.kr/wp/).%20%The%20%models%20%are%20%for%20%use with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad%20%scalable,%20%and%20%orientation selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/A80B.pdf target="blank">A80B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1330&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-1111-001_datasheet.pdf" target="blank">CAP-AMH-1111-001</a> </td> <td width="10%"> 1111 </td> <td width="10%"> Capacitor </td> <td width="10%"> 16 </td> <td width="10%"> </td> <td width="10%"> 1-1000 pF </td> <td width="10%"> OS, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=A60Z data-key-5=%20% data-key-6=The%20%CAP-AMH-0201-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%P/N%20%A60Z%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://global.amotech.co.kr/wp/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad%20%scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/A60Z.pdf target="blank">A60Z</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1376&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-0201-001-BRK_datasheet.pdf" target="blank">CAP-AMH-0201-001-BRK</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, BRK, BB, VS, SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=A60L data-key-5=%20% data-key-6=The%20%CAP-AMH-0402-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%P/N%20%A60L%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://global.amotech.co.kr/wp/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad%20%scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/A60L.pdf target="blank">A60L</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1377&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-0402-001-BRK_datasheet.pdf" target="blank">CAP-AMH-0402-001-BRK</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, BRK, BB, VS, SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=A60Z data-key-5=%20% data-key-6=The%20%CAP-AMH-0201-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%P/N%20%A60Z%20%surface%20%mount%20%%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://global.amotech.co.kr/wp/&quot;&gt;A60L&lt;/a&gt;).%20%The%20%models%20%are%20%for%20%%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR). data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/A60Z.pdf target="blank">A60Z</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1313&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-0201-001_datasheet.pdf" target="blank">CAP-AMH-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1 to 10 pF </td> <td width="10%"> OS, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=A60L data-key-5=%20% data-key-6=The%20%CAP-AMH-0402-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%P/N%20%A60L%20%surface%20%mount chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://global.amotech.co.kr/wp/).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency. The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/A60L.pdf target="blank">A60L</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1314&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-0402-001_datasheet.pdf" target="blank">CAP-AMH-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.5 to 27 pF </td> <td width="10%"> OS, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ABCUC 161 0XX 103 data-key-5=%20% data-key-6=The%20%CAP-AMH-01005-101%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Amotech%20%P/N ABCUC06S0XX103%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.amotech.com). The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Model%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/ABCUC1610XX103.pdf target="blank">ABCUC 161 0XX 103</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1509&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-01005-101_datasheet.pdf" target="blank">CAP-AMH-01005-101</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 10 nF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ABCUC 101 0XX 473 data-key-5=%20% data-key-6=The%20%CAP-AMH-01005-102%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Amotech%20%P/N ABCUC06S0XX473%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.amotech.com). The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Model%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/ABCUC1010XX473.pdf target="blank">ABCUC 101 0XX 473</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1510&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-01005-102_datasheet.pdf" target="blank">CAP-AMH-01005-102</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 47 nF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ABCUC 16S 01X 104 data-key-5=%20% data-key-6=The%20%CAP-AMH-0201-103%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Amotech%20%P/N ABCUC16S01X104%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.amotech.com). The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Model%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/ABCUC16S01X104.pdf target="blank">ABCUC 16S 01X 104</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1511&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-0201-103_datasheet.pdf" target="blank">CAP-AMH-0201-103</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 100 nF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ABCUC 101 0XX 104 data-key-5=%20% data-key-6=The%20%CAP-AMH-01005-103%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Amotech%20%P/N ABCUC0610xx104%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.amotech.com).%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Model%20%account%20%for%20%up%20%to%20%two%20%higher-order resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/ABCUC1010XX104.pdf target="blank">ABCUC 101 0XX 104</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1495&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-01005-103_datasheet.pdf" target="blank">CAP-AMH-01005-103</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 100 nF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ABCUC 252 01X 103 data-key-5=%20% data-key-6=The%20%CAP-AMH-0201-004%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Amotech%20%P/N ABCUA16S01X103%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.amotech.com). The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Model%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%S-parameter%20%extracted Equivalent%20%series%20%resistance%20%is%20%used%20%for%20%validation.%20%A%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/ABCUC25201X103.pdf target="blank">ABCUC 252 01X 103</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1496&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-0201-004_datasheet.pdf" target="blank">CAP-AMH-0201-004</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 10 nF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ABCUC 16S 01X 224 data-key-5=%20% data-key-6=The%20%CAP-AMH-0201-005%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Amotech%20%P/N ABCUC16S01X224%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.amotech.com). The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Model%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%S-parameter%20%extracted Equivalent%20%series%20%resistance%20%is%20%used%20%for%20%validation.%20%A%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/ABCUC16S01X224.pdf target="blank">ABCUC 16S 01X 224</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1497&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-0201-005_datasheet.pdf" target="blank">CAP-AMH-0201-005</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 220 nF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ABCUA50S02x104 data-key-5=%20% data-key-6=The%20%CAP-AMH-0402-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AMH%20%P/N%20%ABCUA50S02X104%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.amotech.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Model%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%A%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Amotech <td width="10%"> <a href=/models/Vendor/Amotech/ABCUA50S02x104.pdf target="blank">ABCUA50S02x104</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=96&amp;mdl=1463&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AMH-0402-002_datasheet.pdf" target="blank">CAP-AMH-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 70 </td> <td width="10%"> </td> <td width="10%"> 100 nF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TCAF data-key-5=%20% data-key-6=The%20%ATT-AFE-TCAF-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%API%20%Inmet%20%P/N%20%TCAF%20%N05%20%series%20%temperature%20%variable%20%chip%20%attenuators,%20%2,%20%3,%20%4,%20%5%20%and%20%6dB%20%(additional%20%information%20%is%20%available%20%at%20%inmet.apitech.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%temperature,grounding%20%configuration,%20%pad%20%length,%20%and%20%pad%20%width%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%Case%20%ground%20%configuration%20%is%20%based%20%on%20%manufacturertest%20%fixture%20%and%20%validated%20%with%20%measurements%20%on%20%a%20%single%20%substrate%20%and%20%specific%20%footprint.%20%Via%20%array%20%ground%20%configuration%20%is%20%based%20%on%20%specific%20%via%20%grounding%20%configuration%20%and%20%validated%20%over%20%multiple%20%substrates data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/TCAF.pdf target="blank">TCAF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=701&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-AFE-TCAF-001_datasheet.pdf" target="blank">ATT-AFE-TCAF-001</a> </td> <td width="10%"> </td> <td width="10%"> Attenuator </td> <td width="10%"> 18 </td> <td width="10%"> </td> <td width="10%"> 2 - 6 dB </td> <td width="10%"> SS, VS, PS, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PPC100-200AW data-key-5=%20% data-key-6=The%20%RES-AFE-10020AW-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Aeroflex%20%P/N%20%PPC100-200AW50R0G%20%and%20%-1000G%20%surface%20%mount%20%chip%20%resistors%20%(additional%20%information%20%is%20%available%20%at%20%www.aeroflex.com/inmet).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/PPC100-200AW.pdf target="blank">PPC100-200AW</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=488&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AFE-100200AW-001_datasheet.pdf" target="blank">RES-AFE-100200AW-001</a> </td> <td width="10%"> 100x200 </td> <td width="10%"> Resistor </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> 50 and 100 Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NPC20-40S data-key-5=%20% data-key-6=The%20%RES-AFE-2040S-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Aeroflex%20%P/N%20%NPC20-40S-50R0G%20%and%20%1000G%20%surface%20%mount%20%chip%20%resistors%20%(additional%20%information%20%is%20%available%20%at%20%www.aeroflex.com/inmet).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/NPC20-40S.pdf target="blank">NPC20-40S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=489&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AFE-2040S-001_datasheet.pdf" target="blank">RES-AFE-2040S-001</a> </td> <td width="10%"> 20x40 </td> <td width="10%"> Resistor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 50 and 100 Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NPC50-100W data-key-5=%20% data-key-6=The%20%RES-AFE-50100W-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Aeroflex%20%P/N%20%NPC50-100W%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.aeroflex.com/inmet).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/NPC50-100W.pdf target="blank">NPC50-100W</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=490&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AFE-50100W-001_datasheet.pdf" target="blank">RES-AFE-50100W-001</a> </td> <td width="10%"> 50x100 </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 50 and 100 Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ANC50-100W data-key-5=%20% data-key-6=The%20%RES-AFE-5050W-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Aeroflex%20%P/N%20%ANC50-100W-50R0G%20%surface%20%mount%20%chip%20%resistor%20%(additional%20%information%20%is%20%available%20%at%20%www.aeroflex.com/inmet).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/ANC50-100W.pdf target="blank">ANC50-100W</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=491&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AFE-50100W-002_datasheet.pdf" target="blank">RES-AFE-50100W-002</a> </td> <td width="10%"> 50x100 </td> <td width="10%"> Resistor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 50 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NPC50-50W data-key-5=%20% data-key-6=The%20%RES-AFE-5050W-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Aeroflex%20%P/N%20%NPC50-50W%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.aeroflex.com/inmet).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/NPC50-50W.pdf target="blank">NPC50-50W</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=492&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AFE-5050W-001_datasheet.pdf" target="blank">RES-AFE-5050W-001</a> </td> <td width="10%"> 50x50 </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 50 and 100 Ohms </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ANC50-50W data-key-5=%20% data-key-6=The%20%RES-AFE-5050W-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Aeroflex%20%P/N%20%ANC50-50W-50R0G%20%surface%20%mount%20%chip%20%resistor%20%(additional%20%information%20%is%20%available%20%at%20%www.aeroflex.com/inmet).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/ANC50-50W.pdf target="blank">ANC50-50W</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=493&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AFE-5050W-002_datasheet.pdf" target="blank">RES-AFE-5050W-002</a> </td> <td width="10%"> 50x50 </td> <td width="10%"> Resistor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 50 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PCA data-key-5=%20% data-key-6=The%20%ATTSP-AFE-PCA-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Aeroflex%20%PCA%20%series%20%chip%20%attenuators%20%(additional%20%information%20%is%20%available%20%at%20%www.aeroflex.com/inmet).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/PCA.pdf target="blank">PCA</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=48&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATTSP-AFE-PCA-001_datasheet.pdf" target="blank">ATTSP-AFE-PCA-001</a> </td> <td width="10%"> </td> <td width="10%"> Attenuator </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1-20 dB </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PCAA data-key-5=%20% data-key-6=The%20%ATTSP-AFE-PCAA-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Aeroflex%20%PCA%20%series%20%chip%20%attenuators%20%(additional%20%information%20%is%20%available%20%at%20%www.aeroflex.com/inmet).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type.%20% data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/PCAA.pdf target="blank">PCAA</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=49&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATTSP-AFE-PCAA-001_datasheet.pdf" target="blank">ATTSP-AFE-PCAA-001</a> </td> <td width="10%"> </td> <td width="10%"> Attenuator </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1-20 dB </td> <td width="10%"> SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PCAAF data-key-5=%20% data-key-6=The%20%ATT-AFE-PCAAF-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Aeroflex%20%P/N%20%PCAAF%20%surface%20%mount%20%chip%20%attenuator%20%family.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/PCAAF.pdf target="blank">PCAAF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=39&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-AFE-PCAAF-001_datasheet.pdf" target="blank">ATT-AFE-PCAAF-001</a> </td> <td width="10%"> </td> <td width="10%"> Attenuator </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1-20 dB </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PCAF data-key-5=%20% data-key-6=The%20%ATT-AFE-PCAF-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Aeroflex%20%P/N%20%PCAF%20%surface%20%mount%20%chip%20%at%20%tenuator%20%family.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> API_Inmet <td width="10%"> <a href=/models/Vendor/API_Inmet/PCAF.pdf target="blank">PCAF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=43&amp;mdl=40&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-AFE-PCAF-001_datasheet.pdf" target="blank">ATT-AFE-PCAF-001</a> </td> <td width="10%"> </td> <td width="10%"> Attenuator </td> <td width="10%"> 18 </td> <td width="10%"> </td> <td width="10%"> 1-20 dB </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MGA86576 data-key-5=%20% data-key-6=The%20%AMP-AVA-MGA86576-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Avago%20%MGA86576%20%packaged%20%amplifier.%20%The%20%model%20%is%20%a%20%file-driven%20%behavioral%20%model%20%for%20%use%20%in%20%AWR%20%that%20%allows%20%the%20%prediction%20%of%20%S-parameter,%20%(50%20%ohm)%20%power%20%compression%20%and%20%(50%20%ohm%20%in/out)%20%TOI%20%data%20% data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Avago <td width="10%"> <a href=/models/Vendor/Avago/MGA86576.pdf target="blank">MGA86576</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=17&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMP-AVA-MGA86576-001_datasheet.pdf" target="blank">AMP-AVA-MGA86576-001</a> </td> <td width="10%"> Package </td> <td width="10%"> Amplifier </td> <td width="10%"> 10 </td> <td width="10%"> 7.0 </td> <td width="10%"> </td> <td width="10%"> NL, NP, TS, IM </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AT-41511 data-key-5=%20% data-key-6=The%20%BJT-AVA-41511%20%is%20%a%20%non-linear%20%Gummel-Poon%20%model%20%for%20%the%20%Avago%20%AT41511%20%NPN%20%BJT%20%in%20%a%20%SOT143%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%thickness,%20%relative%20%dielectric%20%constant,%20%conductor%20%thickness,%20%substrate%20%loss%20%tangent%20%and%20%temperature.%20%The%20%model%20%is%20%designed%20%for%20%use%20%in%20%low-noise%20%amplifiers data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Avago <td width="10%"> <a href=/models/Vendor/Avago/AT-41511.pdf target="blank">AT-41511</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=50&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-AVA-AT41511_datasheet.pdf" target="blank">BJT-AVA-AT41511</a> </td> <td width="10%"> SOT-143 </td> <td width="10%"> NPNBJT </td> <td width="10%"> 6 </td> <td width="10%"> 14.5 dBm </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, FL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AT-41533 data-key-5=%20% data-key-6=The%20%BJT-AVA-AT41533%20%is%20%a%20%substrate%20%scalable%20%temperature%20%dependent%20%Gummel-Poon%20%model%20%for%20%the%20%Avago%20%AT-41533%20%NPN%20%Si%20%BJT%20%in%20%a%20%SOT23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%thickness,%20%relative%20%dielectric%20%constant,%20%conductor%20%thickness,%20%dielectric%20%loss%20%tangent,%20%and%20%device%20%operating%20%temperature.%20% data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Avago <td width="10%"> <a href=/models/Vendor/Avago/AT-41533.pdf target="blank">AT-41533</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=51&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-AVA-AT41533_datasheet.pdf" target="blank">BJT-AVA-AT41533</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> NPNBJT </td> <td width="10%"> 6 </td> <td width="10%"> 14.5 dBm </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, NP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AT-64023 data-key-5=%20% data-key-6=The%20%BJT-AVA-AT64023%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%packaged%20%Avago%20%AT-64023%20%silicon%20%bipolar%20%transistor%20%based%20%on%20%the%20%extraction%20%of%20%a%20%Gummel-Poon%20%model%20%(additional%20%information%20%is%20%available%20%at%20%www.avagotech.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%0.04%20%to%20%4%20%GHz,%20%especially%20%for%20%use%20%in%20%medium%20%power,%20%wide%20%band%20%amplifier%20%and%20%oscillator%20%applications%20%operating%20%over%20%VHF,%20%UHF,%20%and%20%microwave%20%frequencies.%20%%20% data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Avago <td width="10%"> <a href=/models/Vendor/Avago/AT-64023.pdf target="blank">AT-64023</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=52&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-AVA-AT64023_datasheet.pdf" target="blank">BJT-AVA-AT64023</a> </td> <td width="10%"> Hermetic BeO flange package </td> <td width="10%"> NPNBJT </td> <td width="10%"> 4 </td> <td width="10%"> 27 dBm </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, NP, LP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CE3512K2 data-key-5=%20% data-key-6=The%20%HMT-CEL-CE3512K2-201%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%CEL%20%CE3512K2%20%PHEMT%20%in%20%a%20%Micro-X%20%plastic%20%package%20%based%20%on%20%the%20%extraction%20%of%20%Angelov%20%model%20%(additional%20%information%20%is%20%available%20%at%20%https://www.cel.com/).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%in%20%low%20%noise%20%designs%20% data-key-8=LowNoiseFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> CEL <td width="10%"> <a href=/models/Vendor/CEL/CE3512K2.pdf target="blank">CE3512K2</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=10&amp;mdl=1350&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowNoiseFET%2FHMT-CEL-CE3512K2-201_datasheet.pdf" target="blank">HMT-CEL-CE3512K2-201</a> </td> <td width="10%"> S01 </td> <td width="10%"> LowNoiseFET </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, NP, IM </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CE3520K3 data-key-5=%20% data-key-6=The%20%HMT-CEL-CE3502K3-SS%20%is%20%a%20%linear%20%model%20%with%20%noise%20%for%20%the%20%Micro-X%20%package%20%pHEMT%20%transistor%20%(additional%20%informationis%20%available%20%at%20%www.cel.com).%20%The%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%linear%20%model%20%that%20%is%20%validated%20%against%20%Sparametermeasurement%20%datasets.%20%The%20%model%20%is%20%extracted%20%such%20%that%20%performance%20%varies%20%with%20%bias%20%condition%20%(1%20%through%20%3selector). data-key-8=LowNoiseFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> CEL <td width="10%"> <a href=/models/Vendor/CEL/CE3520K3.pdf target="blank">CE3520K3</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=10&amp;mdl=1068&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowNoiseFET%2FHMT-CEL-CE3520K3-SS_datasheet.pdf" target="blank">HMT-CEL-CE3520K3-SS</a> </td> <td width="10%"> 4-Micro-X </td> <td width="10%"> LowNoiseFET </td> <td width="10%"> 24 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CE3514M4 data-key-5=%20% data-key-6=The%20%FET-CEL-CE3514M4%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%CEL%20%CE3514M4%20%low%20%noise%20%GaAs%20%FET%20%in%20%a%20%4-pin%20%plastic package%20%based%20%on%20%the%20%extraction%20%of%20%an%20%Angelov-based%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip applications%20%operating%20%from%20%DC%20%to%20%18%20%GHz. data-key-8=LowNoiseFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> CEL <td width="10%"> <a href=/models/Vendor/CEL/CE3514M4.pdf target="blank">CE3514M4</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=10&amp;mdl=1028&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowNoiseFET%2FFET-CEL-CE3514M4_datasheet.pdf" target="blank">FET-CEL-CE3514M4</a> </td> <td width="10%"> Package </td> <td width="10%"> LowNoiseFET </td> <td width="10%"> 18 </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> NL, TS, NP, SS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CE3512K2 data-key-5=%20% data-key-6=The%20%HMT-CEL-CE3512K2-101%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%CEL%20%CE3512K2%20%PHEMT%20%in%20%a%20%S01%20%package%20%based on%20%the%20%extraction%20%of%20%EEHEMT%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from DC%20%to%20%30%20%GHz. data-key-8=LowNoiseFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> CEL <td width="10%"> <a href=/models/Vendor/CEL/CE3512K2.pdf target="blank">CE3512K2</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=10&amp;mdl=1058&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowNoiseFET%2FHMT-CEL-CE3512K2-101_datasheet.pdf" target="blank">HMT-CEL-CE3512K2-101</a> </td> <td width="10%"> S01 </td> <td width="10%"> LowNoiseFET </td> <td width="10%"> 30 </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> NL, NP, IM </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PBY160808T data-key-5=%20% data-key-6=The%20%FBD-CHL-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Chilisin%20%P/N%20%PBY160808T%20%surface%20%mount chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.chilisin.com).%20%A%20%single,%20%substrate%20%scalable%20%Microwave Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height, dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Accurate impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Chilisin <td width="10%"> <a href=/models/Vendor/Chilisin/PBY160808T.pdf target="blank">PBY160808T</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=39&amp;mdl=796&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-CHL-0603-001_datasheet.pdf" target="blank">FBD-CHL-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 10 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GBY160808T data-key-5=%20% data-key-6=The%20%FBD-CHL-0603-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Chillisin%20%P/N%20%GBY160808T%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.chilisin.com).%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Accurateimpedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a%20%temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Chilisin <td width="10%"> <a href=/models/Vendor/Chilisin/GBY160808T.pdf target="blank">GBY160808T</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=39&amp;mdl=802&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-CHL-0603-002_datasheet.pdf" target="blank">FBD-CHL-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 30-1500 Ohms </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CLH1608 data-key-5=%20% data-key-6=The%20%IND-CHL-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Chilisin%20%P/N%20%CLH1680%20%Tight%20%Tolerance%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.chilisin.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Chilisin <td width="10%"> <a href=/models/Vendor/Chilisin/CLH1608.pdf target="blank">CLH1608</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=39&amp;mdl=319&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CHL-0603-001_datasheet.pdf" target="blank">IND-CHL-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1-390 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CLH2012 data-key-5=%20% data-key-6=The%20%IND-CHL-0805-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Chilisin%20%P/N%20%CLH2012%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.chilisin.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%length%20%and%20%pad%20%width%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Chilisin <td width="10%"> <a href=/models/Vendor/Chilisin/CLH2012.pdf target="blank">CLH2012</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=39&amp;mdl=320&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CHL-0805-001_datasheet.pdf" target="blank">IND-CHL-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.5-470 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CL2012 data-key-5=%20% data-key-6=The%20%IND-CHL-0805-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Chilisin%20%P/N%20%CL2012%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.chilisin.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%length%20%and%20%pad%20%width%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Chilisin <td width="10%"> <a href=/models/Vendor/Chilisin/CL2012.pdf target="blank">CL2012</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=39&amp;mdl=321&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CHL-0805-002_datasheet.pdf" target="blank">IND-CHL-0805-002</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.5-470 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SBY100505T data-key-5=%20% data-key-6=The%20%FBD-CHL-0402-001%20%is%20%a%20%substrate%20%and%20%bias%20%scalable%20%Global%20%Model™%20%for%20%the%20%Chilisin%20%P/N%20%SBY100505T%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.chilisin.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a%20%temperature%20%of%20%25%20%C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Chilisin <td width="10%"> <a href=/models/Vendor/Chilisin/SBY100505T.pdf target="blank">SBY100505T</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=39&amp;mdl=246&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-CHL-0402-001_datasheet.pdf" target="blank">FBD-CHL-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 10-1800 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0302CS data-key-5=%20% data-key-6=The%20%IND-CLC-0302-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0302CS%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0302CS.pdf target="blank">0302CS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=323&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0302-001_datasheet.pdf" target="blank">IND-CLC-0302-001</a> </td> <td width="10%"> 0302 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.67-34 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0402HP data-key-5=%20% data-key-6=The%20%IND-CLC-0402-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0402HP%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0402HP.pdf target="blank">0402HP</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=325&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0402-002_datasheet.pdf" target="blank">IND-CLC-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.0-220 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0603LS data-key-5=%20% data-key-6=The%20%IND-CLC-0603-003%20%is%20%a%20%substrate%20%scalable%20%MicrowaveGlobal%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0603LS%20%series surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%and%20%pad length%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance (ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available%20%that%20%accurately emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0603LS.pdf target="blank">0603LS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=330&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0603-003_datasheet.pdf" target="blank">IND-CLC-0603-003</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 47-22,000 nH </td> <td width="10%"> </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0603CS data-key-5=%20% data-key-6=The%20%IND-CLC-0603-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0603CS%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0603CS.pdf target="blank">0603CS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=331&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0603-101_datasheet.pdf" target="blank">IND-CLC-0603-101</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.6 - 390 nH </td> <td width="10%"> 3D, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0603HP data-key-5=%20% data-key-6=The%20%IND-CLC-0603-102%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0603HP%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0603HP.pdf target="blank">0603HP</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=332&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0603-102_datasheet.pdf" target="blank">IND-CLC-0603-102</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.8-390 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0604HQ data-key-5=%20% data-key-6=The%20%IND-CLC-0604-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0604HQ%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0604HQ.pdf target="blank">0604HQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=334&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0604-101_datasheet.pdf" target="blank">IND-CLC-0604-101</a> </td> <td width="10%"> 0604 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.15 - 10.4 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0805HT data-key-5=%20% data-key-6=The%20%IND-CLC-0805-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0805HT%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0805HT.pdf target="blank">0805HT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=336&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0805-003_datasheet.pdf" target="blank">IND-CLC-0805-003</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 14 </td> <td width="10%"> </td> <td width="10%"> 1.8-500 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0805HQ data-key-5=%20% data-key-6=The%20%IND-CLC-0805-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0805HQ%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0805HQ.pdf target="blank">0805HQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=337&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0805-004_datasheet.pdf" target="blank">IND-CLC-0805-004</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 14 </td> <td width="10%"> </td> <td width="10%"> 2.5-51 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0805CS data-key-5=%20% data-key-6=The%20%IND-CLC-0805-102%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0805CS%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0805CS.pdf target="blank">0805CS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=338&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0805-102_datasheet.pdf" target="blank">IND-CLC-0805-102</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 14 </td> <td width="10%"> </td> <td width="10%"> 3.3 - 680nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0906 data-key-5=%20% data-key-6=The%20%IND-CLC-0906-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0906%20%surface%20%mount%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%one%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Data%20%to%20%model%20%comparisons%20%beyond%20%the%20%first%20%higher%20%order%20%resonance%20%are%20%typically%20%degraded%20%due%20%to%20%high%20%radiation%20%losses%20%in%20%these%20%frequency%20%bands.Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0906.pdf target="blank">0906</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=341&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0906-001_datasheet.pdf" target="blank">IND-CLC-0906-001</a> </td> <td width="10%"> 0906 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> 0 </td> <td width="10%"> 1.65 - 5.4 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1008HQ data-key-5=%20% data-key-6=The%20%IND-CLC-1008-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1008HQ%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1008HQ.pdf target="blank">1008HQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=344&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1008-002_datasheet.pdf" target="blank">IND-CLC-1008-002</a> </td> <td width="10%"> 1008 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 3-100 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1008CT data-key-5=%20% data-key-6=The%20%IND-CLC-1008-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1008CT%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1008CT.pdf target="blank">1008CT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=346&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1008-004_datasheet.pdf" target="blank">IND-CLC-1008-004</a> </td> <td width="10%"> 1008 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 4.7-100 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1008CS data-key-5=%20% data-key-6=The%20%IND-CLC-1008-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1008CS%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1008CS.pdf target="blank">1008CS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=347&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1008-101_datasheet.pdf" target="blank">IND-CLC-1008-101</a> </td> <td width="10%"> 1008 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 10-8200 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1008HS data-key-5=%20% data-key-6=The%20%IND-CLC-1008-103%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1008HS%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1008HS.pdf target="blank">1008HS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=348&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1008-103_datasheet.pdf" target="blank">IND-CLC-1008-103</a> </td> <td width="10%"> 1008 </td> <td width="10%"> Inductor </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> 10-1000 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1206CS data-key-5=%20% data-key-6=The%20%IND-CLC-1206-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1206CS%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1206CS.pdf target="blank">1206CS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=350&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1206-001_datasheet.pdf" target="blank">IND-CLC-1206-001</a> </td> <td width="10%"> 1206 </td> <td width="10%"> Inductor </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> 3.3-1200 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1606 data-key-5=%20% data-key-6=The%20%IND-CLC-1606-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1606%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1606.pdf target="blank">1606</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=352&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1606-001_datasheet.pdf" target="blank">IND-CLC-1606-001</a> </td> <td width="10%"> 1606 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 5.6 - 12.55 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=4310LC data-key-5=%20% data-key-6=The%20%IND-CLC-4310-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%4310LC%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/4310LC.pdf target="blank">4310LC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=355&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-4310-001_datasheet.pdf" target="blank">IND-CLC-4310-001</a> </td> <td width="10%"> 4310 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1.3-3.5 uH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GA309X data-key-5=%20% data-key-6=The%20%IND-CLC-GA309X-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%GA3092,%20%GA3093,%20%GA3094%20%and%20%GA3095%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/GA309X.pdf target="blank">GA309X</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=356&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-GA309X-001_datasheet.pdf" target="blank">IND-CLC-GA309X-001</a> </td> <td width="10%"> Spring </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 3.7-17.5 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=132_xxSM data-key-5=%20% data-key-6=The%20%IND-CLC-MAXI-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%132-xxSM%20%surface%20%mount%20%air%20%coil%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%one%20%higher-order%20%resonant%20%frequency%20%pair%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Data%20%to%20%model%20%comparisons%20%beyond%20%the%20%first%20%higher%20%order%20%resonance%20%are%20%typically%20%degraded%20%due%20%to%20%high%20%radiation%20%losses%20%in%20%these%20%frequency%20%bands.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/132_xxSM.pdf target="blank">132_xxSM</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=357&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-MAXI-001_datasheet.pdf" target="blank">IND-CLC-MAXI-001</a> </td> <td width="10%"> MAXI </td> <td width="10%"> Inductor </td> <td width="10%"> 1.5 </td> <td width="10%"> </td> <td width="10%"> 90 - 538 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=132-xxSM data-key-5=%20% data-key-6=The%20%IND-CLC-MAXI-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%132-xxSM%20%surface%20%mount%20%air%20%coil%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Data%20%to%20%model%20%comparisons%20%beyond%20%the%20%first%20%higher%20%order%20%resonance%20%are%20%typically%20%degraded%20%due%20%to%20%high%20%radiation%20%losses%20%in%20%these%20%frequency%20%bands.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/132-xxSM.pdf target="blank">132-xxSM</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=358&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-MAXI-101_datasheet.pdf" target="blank">IND-CLC-MAXI-101</a> </td> <td width="10%"> MAXI </td> <td width="10%"> Inductor </td> <td width="10%"> 3 </td> <td width="10%"> </td> <td width="10%"> 90-538 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1812SMS data-key-5=%20% data-key-6=The%20%IND-CLC-MIDI-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1812SMS%20%surface%20%mount%20%air%20%coil%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Data%20%to%20%model%20%comparisons%20%beyond%20%the%20%first%20%higher%20%order%20%resonance%20%are%20%typically%20%degraded%20%due%20%to%20%high%20%radiation%20%losses%20%in%20%these%20%frequency%20%bands.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1812SMS.pdf target="blank">1812SMS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=360&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-MIDI-101_datasheet.pdf" target="blank">IND-CLC-MIDI-101</a> </td> <td width="10%"> MIDI </td> <td width="10%"> Inductor </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> 22-120 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AxxT data-key-5=%20% data-key-6=The%20%IND-CLC-MINI-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/NAxxTseries%20%surface%20%mount%20%air%20%coilinductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/AxxT.pdf target="blank">AxxT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=361&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-MINI-001_datasheet.pdf" target="blank">IND-CLC-MINI-001</a> </td> <td width="10%"> MINI </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 2.5 - 18.5 nH </td> <td width="10%"> 3D, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BxxT data-key-5=%20% data-key-6=The%20%IND-CLC-MINI-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%BxxT%20%surface%20%mount%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%one%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Data%20%to%20%model%20%comparisons%20%beyond%20%the%20%first%20%higher%20%order%20%resonance%20%are%20%typically%20%degraded%20%due%20%to%20%high%20%radiation%20%losses%20%in%20%these%20%frequency%20%bands.Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/BxxT.pdf target="blank">BxxT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=362&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-MINI-002_datasheet.pdf" target="blank">IND-CLC-MINI-002</a> </td> <td width="10%"> MINI </td> <td width="10%"> Inductor </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> 17.5 - 43.3 nH </td> <td width="10%"> SS, VS, 3D </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1508 data-key-5=%20% data-key-6=The%20%IND-CLC-MINI-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1508-xxxx%20%surface%20%mount%20%air%20%coil%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%one%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Data%20%to%20%model%20%comparisons%20%beyond%20%the%20%first%20%higher%20%order%20%resonance%20%are%20%typically%20%degraded%20%due%20%to%20%high%20%radiation%20%losses%20%in%20%these%20%frequency%20%bands.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1508.pdf target="blank">1508</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=363&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-MINI-003_datasheet.pdf" target="blank">IND-CLC-MINI-003</a> </td> <td width="10%"> MINI </td> <td width="10%"> Inductor </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> 5.5-13 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=2508 data-key-5=%20% data-key-6=The%20%IND-CLC-MINI-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%2508-xxxx%20%surface%20%mount%20%air%20%coil%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%one%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Data%20%to%20%model%20%comparisons%20%beyond%20%the%20%first%20%higher%20%order%20%resonance%20%are%20%typically%20%degraded%20%due%20%to%20%high%20%radiation%20%losses%20%in%20%these%20%frequency%20%bands.Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/2508.pdf target="blank">2508</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=364&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-MINI-004_datasheet.pdf" target="blank">IND-CLC-MINI-004</a> </td> <td width="10%"> MINI </td> <td width="10%"> Inductor </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> 16-27 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0806SQ data-key-5=%20% data-key-6=The%20%IND-CLC-0806-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0806SQ%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnects%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0806SQ.pdf target="blank">0806SQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=878&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0806-101_datasheet.pdf" target="blank">IND-CLC-0806-101</a> </td> <td width="10%"> 0806 </td> <td width="10%"> Inductor </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> 5.5 - 19.4 Nh </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0908SQ data-key-5=%20% data-key-6=The%20%IND-CLC-0908-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0908SQ%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0908SQ.pdf target="blank">0908SQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=879&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0908-101_datasheet.pdf" target="blank">IND-CLC-0908-101</a> </td> <td width="10%"> 0908 </td> <td width="10%"> Inductor </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> 8.1 - 27.3 Nh </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1111SQ data-key-5=%20% data-key-6=The%20%IND-CLC-1111-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1111SQ%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1111SQ.pdf target="blank">1111SQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=880&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1111-101_datasheet.pdf" target="blank">IND-CLC-1111-101</a> </td> <td width="10%"> 1111 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 27 - 47 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1515SQ data-key-5=%20% data-key-6=The%20%IND-CLC-1515-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1515SQ%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1515SQ.pdf target="blank">1515SQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=881&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1515-101_datasheet.pdf" target="blank">IND-CLC-1515-101</a> </td> <td width="10%"> 1515 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 47 - 82 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=2222SQ data-key-5=%20% data-key-6=The%20%IND-CLC-2222-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%2222SQ%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/2222SQ.pdf target="blank">2222SQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=882&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-2222-101_datasheet.pdf" target="blank">IND-CLC-2222-101</a> </td> <td width="10%"> 2222 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 90 -300 Nh </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0807SQ data-key-5=%20% data-key-6=The%20%IND-CLC-0807-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0807SQ%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0807SQ.pdf target="blank">0807SQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=883&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0807-101_datasheet.pdf" target="blank">IND-CLC-0807-101</a> </td> <td width="10%"> 0807 </td> <td width="10%"> Inductor </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> 6.9 - 22 Nh </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=2929SQ data-key-5=%20% data-key-6=The%20%IND-CLC-2929-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%2929SQ%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/2929SQ.pdf target="blank">2929SQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=884&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-2929-101_datasheet.pdf" target="blank">IND-CLC-2929-101</a> </td> <td width="10%"> 2929 </td> <td width="10%"> Inductor </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> 330 - 500 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0403HQ data-key-5=%20% data-key-6=n/a data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0403HQ.pdf target="blank">0403HQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=857&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0403-001_datasheet.pdf" target="blank">IND-CLC-0403-001</a> </td> <td width="10%"> 0403 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1.9 nH - 18 nH </td> <td width="10%"> </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0402CS data-key-5=%20% data-key-6=The%20%IND-CLC-0402-201%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0402CS%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0402CS.pdf target="blank">0402CS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=706&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0402-201_datasheet.pdf" target="blank">IND-CLC-0402-201</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1 - 120 nH </td> <td width="10%"> SM, PS, SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0603CS data-key-5=%20% data-key-6=The%20%IND-CLC-0603-101-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0603CS%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0603CS.pdf target="blank">0603CS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=707&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0603-101-S_datasheet.pdf" target="blank">IND-CLC-0603-101-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.6 - 390 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BCL data-key-5=%20% data-key-6=The%20%IND-CLC-BCL-SERS-001%20%is%20%the%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%BCL%20%flying%20%lead%20%broadband%20%conical%20%inductors%20%in%20%series%20%configuration%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%selected%20%conical%20%inductor%20%values%20%from%20%0.220%20%to%20%8uH.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/BCL.pdf target="blank">BCL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=773&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-BCL-SERS-001_datasheet.pdf" target="blank">IND-CLC-BCL-SERS-001</a> </td> <td width="10%"> Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> .220 - 8 uH </td> <td width="10%"> BB,SS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BCR data-key-5=%20% data-key-6=The%20%IND-CLC-BCR-SERS-001%20%is%20%the%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%BCR%20%packaged%20%%20%broadband%20%conical%20%inductors%20%in%20%series%20%configuration%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%arefor%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%selected%20%conical%20%inductor%20%values%20%from%20%0.220%20%to%20%8uH.%20%%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/BCR.pdf target="blank">BCR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=774&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-BCR-SERS-001_datasheet.pdf" target="blank">IND-CLC-BCR-SERS-001</a> </td> <td width="10%"> Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> .220 - 8 uH </td> <td width="10%"> BB,SS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BCR data-key-5=%20% data-key-6=The%20%IND-CLC-BCR-SHNT-001%20%is%20%the%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%BCR%20%packaged%20%broadband%20%conical%20%inductors%20%in%20%shunt%20%configuration%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%selected%20%conical%20%inductor%20%values%20%from%20%0.220%20%to%20%8uH.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/BCR.pdf target="blank">BCR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=775&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-BCR-SHNT-001_datasheet.pdf" target="blank">IND-CLC-BCR-SHNT-001</a> </td> <td width="10%"> Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> .220 - 8 uH </td> <td width="10%"> BB,SS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BCL data-key-5=%20% data-key-6=The%20%IND-CLC-BCL-SHNT-001%20%is%20%the%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%BCL%20%flying%20%lead%20%broadband%20%conical%20%inductors%20%in%20%shunt%20%configuration%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%selected%20%conical%20%inductor%20%values%20%from%20%0.220%20%to%20%8uH.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/BCL.pdf target="blank">BCL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=776&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-BCL-SHNT-001_datasheet.pdf" target="blank">IND-CLC-BCL-SHNT-001</a> </td> <td width="10%"> Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> .220 - 8 uH </td> <td width="10%"> BB,SS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1812CS data-key-5=%20% data-key-6=The%20%IND-CLC-1812-001%20%%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1812CS%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1812CS.pdf target="blank">1812CS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=803&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1812-001_datasheet.pdf" target="blank">IND-CLC-1812-001</a> </td> <td width="10%"> 1812 </td> <td width="10%"> Inductor </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> 1.0-33 uH </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0805HP data-key-5=%20% data-key-6=The%20%IND-CLC-0805-005%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0805HP%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Model%20%accounts%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0805HP.pdf target="blank">0805HP</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=1079&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0805-005_datasheet.pdf" target="blank">IND-CLC-0805-005</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 2.6 - 820 nH </td> <td width="10%"> BB, PS, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0603HP data-key-5=%20% data-key-6=The%20%IND-CLC-0603-102-S%20%%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0603HP%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0603HP.pdf target="blank">0603HP</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=1069&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0603-102-S_datasheet.pdf" target="blank">IND-CLC-0603-102-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.8-390 nH </td> <td width="10%"> VV, SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0402DC data-key-5=%20% data-key-6=The%20%IND-CLC-0402-005%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0402DC%20%series%20%surface%20%mount%20%wire%20%wound%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%value,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0402DC.pdf target="blank">0402DC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=1174&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0402-005_datasheet.pdf" target="blank">IND-CLC-0402-005</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.8 – 120 nH </td> <td width="10%"> BB, SS, PS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0805LS data-key-5=%20% data-key-6=The%20%IND-CLC-0805-006%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0805LS%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%value,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0805LS.pdf target="blank">0805LS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=1175&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0805-006_datasheet.pdf" target="blank">IND-CLC-0805-006</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 78 – 27000 nH </td> <td width="10%"> BB, SS, PS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1010VS data-key-5=%20% data-key-6=The%20%IND-CLC-1010-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1010VS%20%series surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1010VS.pdf target="blank">1010VS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=930&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1010-001_datasheet.pdf" target="blank">IND-CLC-1010-001</a> </td> <td width="10%"> 1010 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 23.5-146 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1212VS data-key-5=%20% data-key-6=The%20%IND-CLC-1212-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%1212VS%20%series surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/1212VS.pdf target="blank">1212VS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=931&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-1212-001_datasheet.pdf" target="blank">IND-CLC-1212-001</a> </td> <td width="10%"> 1212 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 22-117 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0201DS data-key-5=%20% data-key-6=The%20%IND-CLC-0201-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0201DS%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect,%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0201DS.pdf target="blank">0201DS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=1464&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0201-101_datasheet.pdf" target="blank">IND-CLC-0201-101</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.5 – 14 nH </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0402HP data-key-5=%20% data-key-6=The%20%IND-CLC-0402-102%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0402HP-xxxXGL%20%surface%20%%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.A data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0402HP.pdf target="blank">0402HP</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=1465&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0402-102_datasheet.pdf" target="blank">IND-CLC-0402-102</a> </td> <td width="10%"> 0301 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 1 – 220 nH </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0201HL data-key-5=%20% data-key-6=The%20%IND-CLC-0201-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0201HL%20%series%20%surface%20%mount%20%wire%20%wound%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%value,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_modeswitch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft <td width="10%"> <a href=/models/Vendor/Coilcraft/0201HL.pdf target="blank">0201HL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=1333&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0201-002_datasheet.pdf" target="blank">IND-CLC-0201-002</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 22 - 51 nH </td> <td width="10%"> BB, SS, VS,PS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CGH35030F data-key-5=%20% data-key-6=The%20%HMT-CRE-CGH35030F-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Cree%20%GaN%20%HEMT%20%device%20%CGH35030F.%20%The%20%model%20%is%20%%20%based%20%on%20%the%20%extraction%20%of%20%Angelov%20%nonlinear%20%model%20%from%20%IV,%20%multi-bias%20%S-parameters%20%and%20%validated%20%against%20%large%20%signal%20%loadpull%20%one-tone%20%and%20%two-tone%20%measurement.%20%%20% data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Cree <td width="10%"> <a href=/models/Vendor/Cree/CGH35030F.pdf target="blank">CGH35030F</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=262&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-CRE-CGH35030F_datasheet.pdf" target="blank">HMT-CRE-CGH35030F</a> </td> <td width="10%"> Packaged </td> <td width="10%"> PHEMT </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS, LP </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0603NPO data-key-5=%20% data-key-6=The%20%CAP-DAR-0201-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Darfon%20%P/N%20%C0603NPO%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Darfon <td width="10%"> <a href=/models/Vendor/Darfon/C0603NPO.pdf target="blank">C0603NPO</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=5&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-DAR-0201-001_datasheet.pdf" target="blank">CAP-DAR-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.2-18 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0402NP0 data-key-5=%20% data-key-6=The%20%CAP-DAR-01005-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Darfon%20%P/N%20%C0402NP0%20%surface mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.darfon.com).%20%The%20%models%20%are%20%for%20%use with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance (ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Darfon <td width="10%"> <a href=/models/Vendor/Darfon/C0402NP0.pdf target="blank">C0402NP0</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=583&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-DAR-01005-001_datasheet.pdf" target="blank">CAP-DAR-01005-001</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EPA1200A data-key-5=%20% data-key-6=The%20%HMT-EXC-EPA1200A%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Excelics%20%EPA1200%20%(50%20%X%20%240%20%um)%20%PHEMT%20%in%20%a%20%180%20%mil%20%metal%20%flange%20%based%20%on%20%the%20%extraction%20%of%20%EEHEMT%20%model.%20%The%20%model%20%%20%is%20%characterized%20%with%20%consideration%20%with%20%consideration%20%to%20%Class%20%E%20%design.%20%The%20%model%20%can%20%also%20%be%20%applied%20%for%20%a%20%better%20%prediction%20%of%20%the%20%Class%20%A/B%20%design. data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Excelics <td width="10%"> <a href=/models/Vendor/Excelics/EPA1200A.pdf target="blank">EPA1200A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=263&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-EXC-EPA1200A_datasheet.pdf" target="blank">HMT-EXC-EPA1200A</a> </td> <td width="10%"> 180 mil Metal Flange </td> <td width="10%"> PHEMT </td> <td width="10%"> 6 </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EPA240BV data-key-5=%20% data-key-6=HMT_EXC_EPA240BV%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%EPA240BV%20%High%20%Efficiency%20%Hetero-junction%20%Power%20%FET%20%chip%20%based%20%on%20%the%20%extraction%20%of%20%EEHEMT%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%25%20%GHz.%20%The%20%device%20%is%20%designed%20%for%20%use%20%in%20%high%20%power%20%efficiency,%20%linearity%20%and%20%reliability%20%amplifier%20%application%20%and%20%other%20%commercial%20%systems.%20% data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Excelics <td width="10%"> <a href=/models/Vendor/Excelics/EPA240BV.pdf target="blank">EPA240BV</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=264&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-EXC-EPA240BV_datasheet.pdf" target="blank">HMT-EXC-EPA240BV</a> </td> <td width="10%"> 79A </td> <td width="10%"> PHEMT </td> <td width="10%"> 25 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, LP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EFA060BS5 data-key-5=%20% data-key-6=The%20%MES-EXC-EFA060BS5%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%low%20%distortion%20%GaAs%20%power%20%FET%20%chip%20%based%20%on%20%the%20%extraction%20%of%20%EEHEMT%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%25%20%GHz.%20%The%20%device%20%is%20%designed%20%for%20%use%20%in%20%high%20%power%20%efficiency,%20%linearity%20%and%20%reliability%20%application%20%and%20%other%20%commercial%20%systems. data-key-8=MESFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Excelics <td width="10%"> <a href=/models/Vendor/Excelics/EFA060BS5.pdf target="blank">EFA060BS5</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=433&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMESFET%2FMES-EXC-EFA060BS5_datasheet.pdf" target="blank">MES-EXC-EFA060BS5</a> </td> <td width="10%"> 79A </td> <td width="10%"> MESFET </td> <td width="10%"> 25 </td> <td width="10%"> 25.0 </td> <td width="10%"> </td> <td width="10%"> NL, LP, TS, IM, BW </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SHF251 data-key-5=%20% data-key-6=The%20%CAP-EXX-0805-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Exxelia%20%SHF251xxx%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.exxelia.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Exxelia <td width="10%"> <a href=/models/Vendor/Exxelia/SHF251.pdf target="blank">SHF251</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=33&amp;mdl=1080&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-EXX-0805-001_datasheet.pdf" target="blank">CAP-EXX-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.3 - 220 pF </td> <td width="10%"> BB, PS, SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CLX data-key-5=%20% data-key-6=The%20%CAP-TMX-2225-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%e%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%wit%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Exxelia <td width="10%"> <a href=/models/Vendor/Exxelia/CLX.pdf target="blank">CLX</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=33&amp;mdl=220&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TMX-2225-001_datasheet.pdf" target="blank">CAP-TMX-2225-001</a> </td> <td width="10%"> 2225 </td> <td width="10%"> Capacitor </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> 1.0-4700 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CLE data-key-5=%20% data-key-6=The%20%CAP-TMX-4040-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%c%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%w%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Exxelia <td width="10%"> <a href=/models/Vendor/Exxelia/CLE.pdf target="blank">CLE</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=33&amp;mdl=221&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TMX-4040-001_datasheet.pdf" target="blank">CAP-TMX-4040-001</a> </td> <td width="10%"> 4040 </td> <td width="10%"> Capacitor </td> <td width="10%"> 3 </td> <td width="10%"> </td> <td width="10%"> 1.0-10,000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MWE6IC9100NR1 data-key-5=%20% data-key-6=The%20%AMPXP-FRS-MWE6IC9100NR1-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%MWE6IC9100NR1%20%power%20%amplifier%20%from%20%Freescale.%20%%20%This%20%amplifier%20%operates%20%from%20%869-960%20%MHz,%20%with%20%typical%20%33.5dB%20%gain%20%and%20%100%20%Watt%20%output%20%power.%20%The%20%model%20%is%20%based%20%on%20%X-parameter%20%data%20%file%20%extracted%20%from%20%the%20%Freescale’s%20%compact%20%model%20%(available%20%from%20%www.freescale.com%20%for%20%free%20%download)%20%at%20%specified%20%condition%20%listed%20%%20%above.%20% data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Freescale <td width="10%"> <a href=/models/Vendor/Freescale/MWE6IC9100NR1.pdf target="blank">MWE6IC9100NR1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=26&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-FRS-MWE6IC9100NR1-001_datasheet.pdf" target="blank">AMPXP-FRS-MWE6IC9100NR1-001</a> </td> <td width="10%"> S01 </td> <td width="10%"> Amplifier </td> <td width="10%"> 1 </td> <td width="10%"> 50.0 </td> <td width="10%"> </td> <td width="10%"> XP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MRF1517 data-key-5=%20% data-key-6=The%20%MOS-FRS-MRF1517%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Freescale%20%MRF1517NT1%20%8W%20%silicon%20%lateral%20%N-channel%20%enhancement-mode%20%MOSFET%20%device%20%based%20%on%20%the%20%extraction%20%of%20%the%20%MET%20%model%20%(additional%20%information%20%is%20%available%20%at%20%www.freescale.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%large-signal,%20%common%20%source%20%amplifier%20%applications. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Freescale <td width="10%"> <a href=/models/Vendor/Freescale/MRF1517.pdf target="blank">MRF1517</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=445&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-FRS-MRF1517_datasheet.pdf" target="blank">MOS-FRS-MRF1517</a> </td> <td width="10%"> Spring </td> <td width="10%"> MOSFET </td> <td width="10%"> 3 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MRF1518 data-key-5=%20% data-key-6=The%20%MOS-FRS-MRF1518%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Freescale%20%MRF1518T1%20%8W%20%silicon%20%lateral%20%N-channel%20%enhancement-mode%20%MOSFET%20%device%20%based%20%on%20%the%20%extraction%20%of%20%the%20%MET%20%model%20%(additional%20%information%20%is%20%available%20%at%20%www.freescale.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%large-signal,%20%common%20%source%20%amplifier%20%applications.%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Freescale <td width="10%"> <a href=/models/Vendor/Freescale/MRF1518.pdf target="blank">MRF1518</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=446&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-FRS-MRF1518_datasheet.pdf" target="blank">MOS-FRS-MRF1518</a> </td> <td width="10%"> Spring </td> <td width="10%"> MOSFET </td> <td width="10%"> 3 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MRF281 data-key-5=%20% data-key-6=The%20%MOS_FRS_MRF281%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Freescale%20%MRF281%20%packaged%20%LDMOSFET.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%2.5%20%GHz.%20%The%20%model%20%is%20%designed%20%for%20%broadband%20%commercial%20%and%20%industrial%20%applications,%20%especially%20%for%20%Class%20%A%20%and%20%Class%20%A/B%20%amplifier%20%design.%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Freescale <td width="10%"> <a href=/models/Vendor/Freescale/MRF281.pdf target="blank">MRF281</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=447&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-FRS-MRF281_datasheet.pdf" target="blank">MOS-FRS-MRF281</a> </td> <td width="10%"> Package </td> <td width="10%"> MOSFET </td> <td width="10%"> 3 </td> <td width="10%"> 36.0 </td> <td width="10%"> </td> <td width="10%"> NL, LP, IM </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MRF9030 data-key-5=%20% data-key-6=MOS-FRS-MRF9030%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Freescale%20%MRF9030%20%lateral%20%N-channel%20%broadband%20%RF%20%power%20%MOSFET%20%based%20%on%20%the%20%extraction%20%of%20%MET%20%model.%20%The%20%model%20%is%20%intended%20%to%20%be%20%used%20%in%20%broadband%20%commercial%20%and%20%industrial%20%applications%20%with%20%frequency%20%up%20%to%20%1GHz.%20%The%20%model%20%is%20%also%20%designed%20%for%20%use%20%in%20%other%20%commercial%20%systems. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Freescale <td width="10%"> <a href=/models/Vendor/Freescale/MRF9030.pdf target="blank">MRF9030</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=448&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-FRS-MRF9030_datasheet.pdf" target="blank">MOS-FRS-MRF9030</a> </td> <td width="10%"> Case 360B-05 </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> 45.33 </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PSF-S00-000 data-key-5=%20% data-key-6=The%20%CON-GLN-SMA-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%GigaLane%20%P/N%20%PSF-S00-000%20%SMA%20%4%20%-%20%hole%20%panel%20%mount%20%jack%20%(additional%20%information%20%is%20%available%20%at%20%www.gigalane.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%carrier-mounted%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%pad%20%width%20%are%20%model%20%input%20%parameters.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Connector data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Gigalane <td width="10%"> <a href=/models/Vendor/Gigalane/PSF-S00-000.pdf target="blank">PSF-S00-000</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=811&amp;returnUrl=%2Fmodels%2Fdatasheet%2FConnector%2FCON-GLN-SMA-001_datasheet.pdf" target="blank">CON-GLN-SMA-001</a> </td> <td width="10%"> </td> <td width="10%"> Connector </td> <td width="10%"> 18 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, BB, PS, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CC0603 data-key-5=%20% data-key-6=The%20%INDSP-GOW-0603-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Gowanda%20%CC0603%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.gowanda.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%4%20%mil%20%thick%20%Rogers%20%4350B%20%substrate%20%or%20%similar%20%board%20%type.%20%%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Gowanda <td width="10%"> <a href=/models/Vendor/Gowanda/CC0603.pdf target="blank">CC0603</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=29&amp;mdl=589&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-GOW-0603-001_datasheet.pdf" target="blank">INDSP-GOW-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 4.7, 5.1 and 5.6 nH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C100FL data-key-5=%20% data-key-6=The%20%INDSP-GOW-C100FL-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Gowanda%20%C100FL%20%series%20%self-leaded%20%conical%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.gowanda.com).%20%The%20%mounting%20%angle%20%for%20%the%20%self-leaded%20%conical%20%inductors%20%is%20%35-degrees%20%to%20%ground%20%plane.%20%The%20%data%20%reference%20%planes%20%are%20%at%20%the%20%solder%20%connection%20%point%20%of%20%the%20%inductor%20%lead%20%on%20%the%20%microstrip%20%line.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%5%20%mil%20%thick%20%Alumina%20%substrate. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Gowanda <td width="10%"> <a href=/models/Vendor/Gowanda/C100FL.pdf target="blank">C100FL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=29&amp;mdl=590&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-GOW-C100FL-001_datasheet.pdf" target="blank">INDSP-GOW-C100FL-001</a> </td> <td width="10%"> Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 1.0 and 1.54 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C100SM data-key-5=%20% data-key-6=The%20%INDSP-GOW-C100SM-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%for%20%the%20%Gowanda%20%C100SMNL%20%series%20%conical%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.gowanda.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%5%20%mil%20%thick%20%Alumina%20%substrate.%20%%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Gowanda <td width="10%"> <a href=/models/Vendor/Gowanda/C100SM.pdf target="blank">C100SM</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=29&amp;mdl=591&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-GOW-C100SM-001_datasheet.pdf" target="blank">INDSP-GOW-C100SM-001</a> </td> <td width="10%"> Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.26, 0.44, 0.69 and 1.0 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C225FL data-key-5=%20% data-key-6=The%20%INDSP-GOW-C225FL-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Gowanda%20%C225FL%20%series%20%self-leaded%20%conical%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.gowanda.com).%20%The%20%mounting%20%angle%20%for%20%the%20%self-leaded%20%conical%20%inductors%20%is%20%35-degrees%20%to%20%ground%20%plane.%20%The%20%data%20%reference%20%planes%20%are%20%at%20%the%20%solder%20%connection%20%point%20%of%20%the%20%inductor%20%lead%20%on%20%the%20%microstrip%20%line.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%5%20%mil%20%thick%20%Alumina%20%substrate.%20%%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Gowanda <td width="10%"> <a href=/models/Vendor/Gowanda/C225FL.pdf target="blank">C225FL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=29&amp;mdl=592&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-GOW-C225FL-001_datasheet.pdf" target="blank">INDSP-GOW-C225FL-001</a> </td> <td width="10%"> Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.89, 1.3, 2.4, 3.8 and 8 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C050FL data-key-5=%20% data-key-6=The%20%INDSP-GOW-C050FL-001%20%is%20%a%20%part-value%20%selectable%20%S%20%parameter%20%data%20%model%20%for%20%the%20%Gowanda%20%C050FL%20%series%20%self-leaded%20%conical%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.gowanda.com).%20%The%20%mounting%20%angle%20%for%20%the%20%self-leaded%20%conical%20%inductors%20%is%20%35-degrees%20%to%20%ground%20%plane.%20%The%20%data%20%reference%20%planes%20%are%20%at%20%the%20%solder%20%connection%20%point%20%of%20%the%20%inductor%20%lead%20%on%20%the%20%microstrip%20%line.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%5%20%mil%20%thick%20%Alumina%20%substrate.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Gowanda <td width="10%"> <a href=/models/Vendor/Gowanda/C050FL.pdf target="blank">C050FL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=29&amp;mdl=390&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-GOW-C050FL-001_datasheet.pdf" target="blank">INDSP-GOW-C050FL-001</a> </td> <td width="10%"> Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.23 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C050SMC data-key-5=%20% data-key-6=The%20%INDSP-GOW-C050SMC-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Gowanda%20%C050SMC%20%series%20%conical%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.gowanda.com).%20%These%20%SParameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%thick%20%Rogers%20%4350B%20%substrate%20%or%20%similar%20%board%20%type. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Gowanda <td width="10%"> <a href=/models/Vendor/Gowanda/C050SMC.pdf target="blank">C050SMC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=29&amp;mdl=391&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-GOW-C050SMC-001_datasheet.pdf" target="blank">INDSP-GOW-C050SMC-001</a> </td> <td width="10%"> Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 42 </td> <td width="10%"> </td> <td width="10%"> 0.23 and 0.4 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C100SMC data-key-5=%20% data-key-6=The%20%INDSP-GOW-C100SMC-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%for%20%the%20%Gowanda%20%C100SMC%20%series%20%conical%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.gowanda.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%Rogers%20%4350B%20%substrate%20%or%20%similar%20%board%20%type.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Gowanda <td width="10%"> <a href=/models/Vendor/Gowanda/C100SMC.pdf target="blank">C100SMC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=29&amp;mdl=392&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-GOW-C100SMC-001_datasheet.pdf" target="blank">INDSP-GOW-C100SMC-001</a> </td> <td width="10%"> Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 42 </td> <td width="10%"> </td> <td width="10%"> 1.0 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRF2070DS data-key-5=%20% data-key-6=The%20%AMPSP-GUR-GRF2070-001%20%is%20%an%20%S-parameter%20%model%20%for%20%the%20%Guerrilla%20%RF%20%GRF2070%20%wideband%20%amplifier%20%in%20%an%20%8-pin%20%2x2mm%20%DFN%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.4%20%–%20%1.5%20%GHz%20%applications.%20%%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%enables%20%the%20%model%20%to%20%predict%20%the%20%circuit%20%performance%20%at%20%25C.%20%%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%&lt;a%20%href=&quot;http://www.guerrilla-rf.com&quot;&gt;Guerilla%20%RF&lt;/a&gt;.%20% data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> GuerrillaRF <td width="10%"> <a href=/models/Vendor/GuerrillaRF/GRF2070DS.pdf target="blank">GRF2070DS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=83&amp;mdl=912&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-GUR-GRF2070-001_datasheet.pdf" target="blank">AMPSP-GUR-GRF2070-001</a> </td> <td width="10%"> 8-pin 2x2mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 8 </td> <td width="10%"> 20.0 </td> <td width="10%"> </td> <td width="10%"> SP, NP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRF2071DS data-key-5=%20% data-key-6=The%20%AMPSP-GUR-GRF2071-001%20%is%20%an%20%S-parameter%20%model%20%for%20%the%20%Guerrilla%20%RF%20%GRF2071%20%wideband%20%amplifier%20%in%20%an%20%8-pin%20%2x2mm%20%DFN%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.7%20%–%20%2.7%20%GHz%20%applications.%20%%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%enables%20%the%20%model%20%to%20%predict%20%the%20%circuit%20%performance%20%at%20%25C.%20%%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%&lt;a%20%href=&quot;http://www.guerrilla-rf.com&quot;&gt;Guerilla%20%RF&lt;/a&gt;.%20% data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> GuerrillaRF <td width="10%"> <a href=/models/Vendor/GuerrillaRF/GRF2071DS.pdf target="blank">GRF2071DS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=83&amp;mdl=913&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-GUR-GRF2071-001_datasheet.pdf" target="blank">AMPSP-GUR-GRF2071-001</a> </td> <td width="10%"> 8-pin 2x2mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 8 </td> <td width="10%"> 21.0 </td> <td width="10%"> </td> <td width="10%"> SP, NP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRF2072DS data-key-5=%20% data-key-6=The%20%AMPSP-GUR-GRF2072-001%20%is%20%an%20%S-parameter%20%model%20%for%20%the%20%Guerrilla%20%RF%20%GRF2072%20%wideband%20%amplifier%20%in%20%an%20%8-pin%20%2x2mm%20%DFN%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%2.3%20%–%20%3.8%20%GHz%20%applications.%20%%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%enables%20%the%20%model%20%to%20%predict%20%the%20%circuit%20%performance%20%at%20%25C.%20%%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%&lt;a%20%href=&quot;http://www.guerrilla-rf.com&quot;&gt;Guerilla%20%RF&lt;/a&gt;.%20% data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> GuerrillaRF <td width="10%"> <a href=/models/Vendor/GuerrillaRF/GRF2072DS.pdf target="blank">GRF2072DS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=83&amp;mdl=914&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-GUR-GRF2072-001_datasheet.pdf" target="blank">AMPSP-GUR-GRF2072-001</a> </td> <td width="10%"> 8-pin 2x2mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 8 </td> <td width="10%"> 20.0 </td> <td width="10%"> </td> <td width="10%"> SP, NP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRF2073DS data-key-5=%20% data-key-6=The%20%AMPSP-GUR-GRF2073-001%20%is%20%an%20%S-parameter%20%model%20%for%20%the%20%Guerrilla%20%RF%20%GRF2073%20%wideband%20%amplifier%20%in%20%an%20%8-pin%20%2x2mm%20%DFN%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%3.0%20%–%20%6.0%20%GHz%20%applications.%20%%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%enables%20%the%20%model%20%to%20%predict%20%the%20%circuit%20%performance%20%at%20%25C.%20%%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%&lt;a%20%href=&quot;http://www.guerrilla-rf.com&quot;&gt;Guerilla%20%RF&lt;/a&gt;.%20% data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> GuerrillaRF <td width="10%"> <a href=/models/Vendor/GuerrillaRF/GRF2073DS.pdf target="blank">GRF2073DS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=83&amp;mdl=915&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-GUR-GRF2073-001_datasheet.pdf" target="blank">AMPSP-GUR-GRF2073-001</a> </td> <td width="10%"> 8-pin 2x2mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 8 </td> <td width="10%"> 18.0 </td> <td width="10%"> </td> <td width="10%"> SP, NP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRF2501DSR data-key-5=%20% data-key-6=The%20%AMPSP-GUR-GRF2501-001%20%is%20%an%20%S-parameter%20%model%20%for%20%the%20%Guerrilla%20%RF%20%GRF2501%20%wideband%20%amplifier%20%in%20%an%20%8-pin%20%2x2mm%20%DFN%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%5.1%20%–%20%5.9%20%GHz%20%applications.%20%%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%enables%20%the%20%model%20%to%20%predict%20%the%20%circuit%20%performance%20%at%20%25C.%20%%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%%20%&lt;a%20%href=&quot;http://www.guerrilla-rf.com&quot;&gt;Guerilla%20%RF&lt;/a&gt;.%20% data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> GuerrillaRF <td width="10%"> <a href=/models/Vendor/GuerrillaRF/GRF2501DSR.pdf target="blank">GRF2501DSR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=83&amp;mdl=916&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-GUR-GRF2501-001_datasheet.pdf" target="blank">AMPSP-GUR-GRF2501-001</a> </td> <td width="10%"> 6-pin 1.5x1.5mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 8 </td> <td width="10%"> 5.0 </td> <td width="10%"> </td> <td width="10%"> SP, NP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRF2093 data-key-5=%20% data-key-6=The%20%AMPSP-GUR-GRF2093-001%20%is%20%an%20%S-parameter%20%model%20%for%20%the%20%Guerrilla%20%RF%20%GRF2093%20%low%20%noise%20%amplifier%20%in%20%a%20%6-pin%20%1.5x1.5%20%mm%20%DFN%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%1.0%20%–%20%6.0%20%GHz%20%applications.%20%The%20%available%20%simulation%20%model%20%enables%20%the%20%prediction%20%of%20%broadband%20%S-parameters%20%and%20%noise%20%parameters%20%for%20%circuit%20%design%20%at%20%25%20%C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%guerrillarf.%20%com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> GuerrillaRF <td width="10%"> <a href=/models/Vendor/GuerrillaRF/GRF2093.pdf target="blank">GRF2093</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=83&amp;mdl=1119&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-GUR-GRF2093-001_datasheet.pdf" target="blank">AMPSP-GUR-GRF2093-001</a> </td> <td width="10%"> 6-pin 1.5x1.5mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 8 </td> <td width="10%"> 19.0 </td> <td width="10%"> </td> <td width="10%"> SP, NP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRF2100 data-key-5=%20% data-key-6=The%20%AMPSP-GUR-GRF2100-001%20%is%20%an%20%S-parameter%20%model%20%for%20%the%20%Guerrilla%20%RF%20%GRF2100%20%low%20%noise%20%amplifier%20%in%20%a%20%6-pin%20%1.5x1.5%20%mm%20%DFN%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%low%20%current,%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.1%20%–%20%3.8%20%GHz%20%applications.%20%The%20%available%20%simulation%20%model%20%enables%20%the%20%prediction%20%of%20%broadband%20%S-parameters%20%and%20%noise%20%parameters%20%for%20%circuit%20%design%20%at%20%25%20%C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%guerrilla-rf.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> GuerrillaRF <td width="10%"> <a href=/models/Vendor/GuerrillaRF/GRF2100.pdf target="blank">GRF2100</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=83&amp;mdl=1120&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-GUR-GRF2100-001_datasheet.pdf" target="blank">AMPSP-GUR-GRF2100-001</a> </td> <td width="10%"> 6-pin 1.5x1.5mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 8 </td> <td width="10%"> 10.0 </td> <td width="10%"> </td> <td width="10%"> SP, NP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRF2106 data-key-5=%20% data-key-6=The%20%AMPSP-GUR-GRF2106-001%20%is%20%an%20%S-parameter%20%model%20%for%20%the%20%Guerrilla%20%RF%20%GRF2106%20%low%20%noise%20%amplifier%20%in%20%a%20%6-pin%20%1.5x1.5%20%mm%20%DFN%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%high%20%gain,%20%low%20%current%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.1%20%–%20%4.2%20%GHz%20%applications.%20%The%20%available%20%simulation%20%model%20%enables%20%the%20%prediction%20%of%20%broadband%20%S-parameters%20%and%20%noise%20%parameters%20%for%20%circuit%20%design%20%at%20%25%20%C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%guerrilla-rf.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> GuerrillaRF <td width="10%"> <a href=/models/Vendor/GuerrillaRF/GRF2106.pdf target="blank">GRF2106</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=83&amp;mdl=1121&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-GUR-GRF2106-001_datasheet.pdf" target="blank">AMPSP-GUR-GRF2106-001</a> </td> <td width="10%"> 6-pin 1.5x1.5mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 8 </td> <td width="10%"> 11.0 </td> <td width="10%"> </td> <td width="10%"> SP, NP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRF4002 data-key-5=%20% data-key-6=The%20%AMPSP-GUR-GRF4002-001%20%is%20%an%20%S-parameter%20%model%20%for%20%the%20%Guerrilla%20%RF%20%GRF4002%20%low%20%noise%20%amplifier%20%in%20%a%20%6-pin%20%1.5x1.5%20%mm%20%DFN%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%linear%20%driver,%20%broadband%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.1%20%–%20%3.8%20%GHz%20%applications.%20%The%20%available%20%simulation%20%model%20%enables%20%the%20%prediction%20%of%20%broadband%20%S-parameters%20%and%20%noise%20%parameters%20%for%20%circuit%20%design%20%at%20%25%20%C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%guerrilla-rf.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> GuerrillaRF <td width="10%"> <a href=/models/Vendor/GuerrillaRF/GRF4002.pdf target="blank">GRF4002</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=83&amp;mdl=1122&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-GUR-GRF4002-001_datasheet.pdf" target="blank">AMPSP-GUR-GRF4002-001</a> </td> <td width="10%"> 6-pin 1.5x1.5mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 8 </td> <td width="10%"> 23.5 </td> <td width="10%"> </td> <td width="10%"> SP, NP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRF4014 data-key-5=%20% data-key-6=The%20%AMPSP-GUR-GRF4014-001%20%is%20%an%20%S-parameter%20%model%20%for%20%the%20%Guerrilla%20%RF%20%GRF4014%20%low%20%noise%20%amplifier%20%in%20%a%20%6-pin%20%1.5x1.5%20%mm%20%DFN%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%linear%20%driver,%20%broadband%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.1%20%–%20%6.0%20%GHz%20%applications.%20%The%20%available%20%simulation%20%model%20%enables%20%the%20%prediction%20%of%20%broadband%20%S-parameters%20%and%20%noise%20%parameters%20%for%20%circuit%20%design%20%at%20%25%20%C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%guerrilla-rf.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> GuerrillaRF <td width="10%"> <a href=/models/Vendor/GuerrillaRF/GRF4014.pdf target="blank">GRF4014</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=83&amp;mdl=1123&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-GUR-GRF4014-001_datasheet.pdf" target="blank">AMPSP-GUR-GRF4014-001</a> </td> <td width="10%"> 6-pin 1.5x1.5mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 8 </td> <td width="10%"> 24.0 </td> <td width="10%"> </td> <td width="10%"> SP, NP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HWC27NC data-key-5=%20% data-key-6=The%20%MES-HEX-HWC27NC%20%is%20%a%20%non-linear%20%model%20%for%20%Hexawave%20%GaAs%20%power%20%FET%20%chip%20%based%20%on%20%the%20%extraction%20%of%20%EEHEMT%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%various%20%L-band%20%and%20%S-band%20%applications.%20%The%20%device%20%is%20%designed%20%for%20%use%20%in%20%medium%20%power%20%gain%20%amplifier%20%application%20%and%20%other%20%commercial%20%systems. data-key-8=MESFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Hexawave <td width="10%"> <a href=/models/Vendor/Hexawave/HWC27NC.pdf target="blank">HWC27NC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=436&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMESFET%2FMES-HEX-HWC27NC-10V_datasheet.pdf" target="blank">MES-HEX-HWC27NC-10V</a> </td> <td width="10%"> 79A </td> <td width="10%"> MESFET </td> <td width="10%"> 18 </td> <td width="10%"> 270 </td> <td width="10%"> </td> <td width="10%"> NL, LP, TS, IM, BW </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HWC27NC data-key-5=%20% data-key-6=The%20%MES-HEX-HWC27NC%20%is%20%a%20%non-linear%20%model%20%for%20%Hexawave%20%GaAs%20%power%20%FET%20%chip%20%based%20%on%20%the%20%extraction%20%of%20%EEHEMT%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%various%20%L-band%20%and%20%S-band%20%applications.%20%The%20%device%20%is%20%designed%20%for%20%use%20%in%20%medium%20%power%20%gain%20%amplifier%20%application%20%and%20%other%20%commercial%20%systems.%20% data-key-8=MESFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Hexawave <td width="10%"> <a href=/models/Vendor/Hexawave/HWC27NC.pdf target="blank">HWC27NC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=437&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMESFET%2FMES-HEX-HWC27NC-2V_datasheet.pdf" target="blank">MES-HEX-HWC27NC-2V</a> </td> <td width="10%"> 79A </td> <td width="10%"> MESFET </td> <td width="10%"> 18 </td> <td width="10%"> 16.0 </td> <td width="10%"> </td> <td width="10%"> NL, LP, TS, IM, BW </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=A-0805 data-key-5=%20% data-key-6=The%20%ATT-IMS-0805-002%20%is%20%a%20%part%20%value%20%scalable%20%equivalent%20%circuit%20%model%20%for%20%the%20%IMS%20%P/N%20%A0805%20%thin-film%20%100-mW%20%surface%20%mount%20%attenuator%20%family%20%in%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Nominal%20%attenuation%20%value,%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%a%20%Sim_mode%20%switch%20%that%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled%20%are%20%all%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%ModelTM%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%%20% data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/A-0805.pdf target="blank">A-0805</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1204&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-IMS-0805-002_datasheet.pdf" target="blank">ATT-IMS-0805-002</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Attenuator </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IMS1141 data-key-5=%20% data-key-6=The%20%ATT-IMS-0805-003%20%is%20%a%20%part%20%value%20%scalable%20%equivalent%20%circuit%20%model%20%for%20%the%20%IMS%20%P/N%20%IMS1141%20%thin-film%20%100-mW%20%surface%20%mount%20%attenuator%20%family%20%in%20%face%20%down%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Nominal%20%attenuation%20%value,%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%a%20%Sim_mode%20%switch%20%that%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled%20%are%20%all%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%%20%Global%20%ModelTM%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IMS1141.pdf target="blank">IMS1141</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1205&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-IMS-0805-003_datasheet.pdf" target="blank">ATT-IMS-0805-003</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Attenuator </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IPT-0402WA-C-U data-key-5=%20% data-key-6=The%20%SPLSP-IMS-IPT0402WACU-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%IMS%20%P/N%20%IPT0402WA-C-U%20%6%20%dB%20%twoway%20%resistive%20%thin%20%film%20%IPT%20%power%20%splitter%20%with%20%wraparound%20%(WA)%20%termination%20%style,%20%face%20%down%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference%20%planes%20%at%20%the%20%PCB%20%footprint%20%for%20%the%20%thin%20%film%20%IPT%20%6%20%dB%20%2-way%20%power%20%splitter%20%with%20%resistive%20%film%20%face%20%down%20%mounting%20%configuration. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IPT-0402WA-C-U.pdf target="blank">IPT-0402WA-C-U</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1429&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-IMS-IPT0402WACU-001_datasheet.pdf" target="blank">SPLSP-IMS-IPT0402WACU-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IPT-0603WA-C data-key-5=%20% data-key-6=The%20%SPLSP-IMS-IPT0603WAC-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%IMS%20%P/N%20%IPT0603WA-C%20%6%20%dB%20%two-way resistive%20%thin%20%film%20%IPT%20%power%20%splitter%20%with%20%wraparound%20%(WA)%20%termination%20%style,%20%face%20%up%20%(additional%20%information%20%is available%20%at%20%ims-resistors.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference planes%20%at%20%the%20%PCB%20%footprint%20%for%20%the%20%thin%20%film%20%IPT%20%6%20%dB%20%2-way%20%power%20%splitter%20%with%20%resistive%20%film%20%face%20%up%20%mounting configuration. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IPT-0603WA-C.pdf target="blank">IPT-0603WA-C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1430&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-IMS-IPT0603WAC-001_datasheet.pdf" target="blank">SPLSP-IMS-IPT0603WAC-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IPT-0805WA-C data-key-5=%20% data-key-6=The%20%SPLSP-IMS-IPT0805WAC-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%IMS%20%P/N%20%IPT0805WA-C%20%6%20%dB%20%two-way%20%%20%resistive%20%thin%20%film%20%IPT%20%power%20%splitter%20%with%20%wraparound%20%(WA)%20%termination%20%style,%20%face%20%up%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference%20%planes%20%at%20%the%20%PCB%20%footprint%20%for%20%the%20%thin%20%film%20%IPT%20%6%20%dB%20%2-way%20%power%20%splitter%20%with%20%resistive%20%film%20%face%20%up%20%mounting%20%configuration.%20%%20%%20%%20%%20% data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IPT-0805WA-C.pdf target="blank">IPT-0805WA-C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1431&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-IMS-IPT0805WAC-001_datasheet.pdf" target="blank">SPLSP-IMS-IPT0805WAC-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IPS2346-C data-key-5=%20% data-key-6=The%20%SPLSP-IMS-IPS2346C-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%IMS%20%P/N%20%IPS2346-C%20%6%20%dB%20%two-way%20%resistive%20%power%20%splitter%20%with%20%wraparound%20%(WA)%20%termination%20%style,%20%face%20%up%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference%20%planes%20%at%20%the%20%PCB%20%footprint%20%for%20%the%20%thick%20%film%20%IPS%20%6%20%dB%20%two-way%20%power%20%splitter%20%with%20%resistive%20%film%20%face%20%up%20%mounting%20%configuration.%20% data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IPS2346-C.pdf target="blank">IPS2346-C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1432&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-IMS-IPS2346C-001_datasheet.pdf" target="blank">SPLSP-IMS-IPS2346C-001</a> </td> <td width="10%"> </td> <td width="10%"> Splitter </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IPS2668-C data-key-5=%20% data-key-6=The%20%SPLSP-IMS-IPS2668C-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%IMS%20%P/N%20%IPS2668-C%20%6%20%dB%20%two-way%20%resistive%20%power%20%splitter%20%with%20%single-sided%20%(SS)%20%termination%20%style%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference%20%planes%20%at%20%the%20%PCB%20%footprint%20%for%20%the%20%thick%20%film%20%IPS%20%6%20%dB%20%two-way%20%power%20%splitter.%20%%20%%20% data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IPS2668-C.pdf target="blank">IPS2668-C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1433&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-IMS-IPS2668C-001_datasheet.pdf" target="blank">SPLSP-IMS-IPS2668C-001</a> </td> <td width="10%"> </td> <td width="10%"> Splitter </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NDX-0505WA data-key-5=%20% data-key-6=The%20%RES-IMS-0505-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%IMS%20%P/N%20%NDX-0505WA%20%thinfilm%20%surface%20%mount%20%chip%20%resistors,%20%with%20%wraparound%20%terminations%20%(additional%20%information%20%is%20%available%20%at%20%imsresistors.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/NDX-0505WA.pdf target="blank">NDX-0505WA</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1521&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-IMS-0505-001_datasheet.pdf" target="blank">RES-IMS-0505-001</a> </td> <td width="10%"> 0505 </td> <td width="10%"> Resistor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 10 - 470 Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NDX-0402WA data-key-5=%20% data-key-6=The%20%RES-IMS-0402-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%IMS%20%P/N%20%NDX-0402WA%20%thinfilm%20%surface%20%mount%20%chip%20%resistors,%20%with%20%wraparound%20%terminations%20%(additional%20%information%20%is%20%available%20%at%20%imsresistors.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/NDX-0402WA.pdf target="blank">NDX-0402WA</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1522&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-IMS-0402-002_datasheet.pdf" target="blank">RES-IMS-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 8.9 – 511 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NDX-0402PW data-key-5=%20% data-key-6=The%20%RES-IMS-0402-003%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%IMS%20%P/N%20%ND3-0402PW%20%thinfilm%20%surface%20%mount%20%chip%20%resistor,%20%with%20%partial%20%wraparound%20%terminations%20%(additional%20%information%20%is%20%available%20%at%20%imsresistors.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%modeled%20%value.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.The%20%RES-IMS-0402-003%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%IMS%20%P/N%20%ND3-0402PW%20%thinfilm%20%surface%20%mount%20%chip%20%resistor,%20%with%20%partial%20%wraparound%20%terminations%20%(additional%20%information%20%is%20%available%20%at%20%imsresistors.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%modeled%20%value.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/NDX-0402PW.pdf target="blank">NDX-0402PW</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1523&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-IMS-0402-003_datasheet.pdf" target="blank">RES-IMS-0402-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 49.9 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IMS2652 data-key-5=%20% data-key-6=The%20%ATT-IMS-0402-002%20%is%20%a%20%part%20%value%20%scalable%20%equivalent%20%circuit%20%model%20%for%20%the%20%IMS%20%P/N%20%IMS2652%20%thin-film surface%20%mount%20%attenuator%20%family%20%in%20%face%20%down%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%imsresistors. com).%20%The%20%models%20%are%20%intended%20%for%20%use%20%in%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal thickness,%20%pad%20%length%20%and%20%pad%20%width%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IMS2652.pdf target="blank">IMS2652</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1036&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-IMS-0402-002_datasheet.pdf" target="blank">ATT-IMS-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Attenuator </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> PS, SS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=A-0603-C data-key-5=%20% data-key-6=The%20%ATT-IMS-0603-001%20%is%20%a%20%part%20%value%20%scalable%20%equivalent%20%circuit%20%model%20%for%20%the%20%IMS%20%P/N%20%A-0603-C%20%thin-film surface%20%mount%20%attenuator%20%family%20%in%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com). The%20%models%20%are%20%intended%20%for%20%use%20%in%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board) related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad length%20%and%20%pad%20%width%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™ is%20%available%20%that%20%accurately%20%emulate%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/A-0603-C.pdf target="blank">A-0603-C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1037&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-IMS-0603-001_datasheet.pdf" target="blank">ATT-IMS-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0 -10 dB </td> <td width="10%"> PS, SS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IMS2533 data-key-5=%20% data-key-6=The%20%ATT-IMS-0603-002%20%is%20%a%20%part%20%value%20%scalable%20%equivalent%20%circuit%20%model%20%for%20%the%20%IMS%20%P/N%20%IMS2533%20%thin-film surface%20%mount%20%attenuator%20%family%20%in%20%face%20%down%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%imsresistors. com).%20%The%20%models%20%are%20%intended%20%for%20%use%20%in%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal thickness,%20%pad%20%length%20%and%20%pad%20%width%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IMS2533.pdf target="blank">IMS2533</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1038&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-IMS-0603-002_datasheet.pdf" target="blank">ATT-IMS-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> PS. SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RC4-0302PW data-key-5=%20% data-key-6=The%20%RES-IMS-0302-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%ModelTM%20%for%20%the%20%IMS%20%P/N%20%RC4-0302PW%20%%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%length,%20%pad%20%width%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/RC4-0302PW.pdf target="blank">RC4-0302PW</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1039&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-IMS-0302-001_datasheet.pdf" target="blank">RES-IMS-0302-001</a> </td> <td width="10%"> 0302 </td> <td width="10%"> Resistor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0 - 1800 Ohm </td> <td width="10%"> PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RC3-0402PW data-key-5=%20% data-key-6=The%20%RES-IMS-0402-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%ModelTM%20%for%20%the%20%IMS%20%P/N%20%RC3-0402PW%20%%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%length,%20%pad%20%width%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/RC3-0402PW.pdf target="blank">RC3-0402PW</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1040&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-IMS-0402-001_datasheet.pdf" target="blank">RES-IMS-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0 - 2000 Ohm </td> <td width="10%"> PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NDX-1020EZW data-key-5=%20% data-key-6=Under%20%Development data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/NDX-1020EZW.pdf target="blank">NDX-1020EZW</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1041&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-IMS-1020-001_datasheet.pdf" target="blank">RES-IMS-1020-001</a> </td> <td width="10%"> 1020 </td> <td width="10%"> Resistor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> PS, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=A-0402WA-C data-key-5=%20% data-key-6=The%20%ATT-IMS-0402-001%20%is%20%a%20%part%20%value%20%scalable%20%equivalent%20%circuit%20%model%20%for%20%the%20%IMS%20%P/N%20%A-0402WA-C%20%thin-film surface%20%mount%20%attenuator%20%family%20%in%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com). The%20%models%20%are%20%intended%20%for%20%use%20%in%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board) related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad length%20%and%20%pad%20%width%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™ is%20%available%20%that%20%accurately%20%emulate%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/A-0402WA-C.pdf target="blank">A-0402WA-C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1019&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-IMS-0402-001_datasheet.pdf" target="blank">ATT-IMS-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Attenuator </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> PS, SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IMS2533 data-key-5=%20% data-key-6=The%20%ATT-IMS-0603-002-S%20%is%20%a%20%part%20%value%20%scalable%20%equivalent%20%circuit%20%model%20%for%20%the%20%IMS%20%P/N%20%IMS2533%20%thin-film%20%surface%20%mount%20%attenuator%20%family%20%in%20%face%20%down%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IMS2533.pdf target="blank">IMS2533</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1108&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-IMS-0603-002-S_datasheet.pdf" target="blank">ATT-IMS-0603-002-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IA3-0805WA data-key-5=%20% data-key-6=The%20%ATT-IMS-0805-001%20%is%20%a%20%part%20%value%20%scalable%20%equivalent%20%circuit%20%model%20%for%20%the%20%IMS%20%P%20%IA3-0805WA%20%thick-film%20%400-mW%20%surface%20%mount%20%attenuator%20%family%20%in%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%imsresistors.%20%com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Nominal%20%attenuation%20%value,%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%a%20%Sim_mode%20%switch%20%that%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled%20%are%20%all%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%ModelTM%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IA3-0805WA.pdf target="blank">IA3-0805WA</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1101&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-IMS-0805-001_datasheet.pdf" target="blank">ATT-IMS-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Attenuator </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1 - 30 dB </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=IA3-1206WA data-key-5=%20% data-key-6=The%20%ATT-IMS-1206-001%20%is%20%a%20%part%20%value%20%scalable%20%equivalent%20%circuit%20%model%20%for%20%the%20%IMS%20%P/N%20%IA3-1206WA%20%thick-film%20%1-W%20%surface%20%mount%20%attenuator%20%family%20%in%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Nominal%20%attenuation%20%value,%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%a%20%Sim_mode%20%switch%20%that%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled%20%are%20%all%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%ModelTM%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> IMS <td width="10%"> <a href=/models/Vendor/IMS/IA3-1206WA.pdf target="blank">IA3-1206WA</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1102&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-IMS-1206-001_datasheet.pdf" target="blank">ATT-IMS-1206-001</a> </td> <td width="10%"> 1206 </td> <td width="10%"> Attenuator </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1 - 30 dB </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BFY420 data-key-5=%20% data-key-6=The%20%BJT-INF-BFY420-101%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Infineon%20%BFY420%20%Micro-X%20%package%20%HiRel%20%NPN%20%silicon%20%RF bipolar%20%transistor,%20%based%20%on%20%the%20%extraction%20%of%20%a%20%Gummel-Poon%20%model%20%(additional%20%information%20%is%20%available%20%at www.infineon.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%in%20%amplifier%20%and%20%oscillator%20%designs operating%20%from%20%0.01%20%to%20%10%20%GHz. data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BFY420.pdf target="blank">BFY420</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1031&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-INF-BFY420-101_datasheet.pdf" target="blank">BJT-INF-BFY420-101</a> </td> <td width="10%"> Micro-X package </td> <td width="10%"> NPNBJT </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BB535 data-key-5=%20% data-key-6=The%20%VAR-INF-D323-001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Infineon%20%BB535%20%varactor%20%diode%20%in%20%a%20%SOD-323%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%UHF/TV%20%tuners.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BB535.pdf target="blank">BB535</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=593&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-INF-D323-001_datasheet.pdf" target="blank">VAR-INF-D323-001</a> </td> <td width="10%"> SOD-323 </td> <td width="10%"> Varactor </td> <td width="10%"> 10 </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BB639 data-key-5=%20% data-key-6=The%20%VAR-INF-D323-002%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Infineon%20%BB639%20%varactor%20%diode%20%in%20%a%20%SOD-323%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%UHF/TV%20%tuners. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BB639.pdf target="blank">BB639</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=594&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-INF-D323-002_datasheet.pdf" target="blank">VAR-INF-D323-002</a> </td> <td width="10%"> SOD-323 </td> <td width="10%"> Varactor </td> <td width="10%"> 10 </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BB833 data-key-5=%20% data-key-6=The%20%VAR-INF-D323-003%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Infineon%20%BB833%20%varactor%20%diode%20%in%20%a%20%SOD-323%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%8%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%UHF/TV%20%tuners. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BB833.pdf target="blank">BB833</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=595&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-INF-D323-003_datasheet.pdf" target="blank">VAR-INF-D323-003</a> </td> <td width="10%"> SOD-323 </td> <td width="10%"> Varactor </td> <td width="10%"> 8 </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BBY51-02W data-key-5=%20% data-key-6=The%20%VAR_INF_SC80_001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Infineon%20%single%20%configuration%20%varactor%20%diode%20%in%20%a%20%SCD80%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%VCO’s%20%in%20%mobile%20%communication%20%equipment.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BBY51-02W.pdf target="blank">BBY51-02W</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=596&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-INF-SC80-001_datasheet.pdf" target="blank">VAR-INF-SC80-001</a> </td> <td width="10%"> SCD80 </td> <td width="10%"> Varactor </td> <td width="10%"> 6 </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BBY52-02L data-key-5=%20% data-key-6=The%20%VAR_INF_0402_001%20%is%20%a%20%substrate%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Infineon%20%varactor%20%diode%20%BBY52-02L%20%featuring%20%0402%20%footprint%20%in%20%TSLP-2-1%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%20%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%VCO’s. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BBY52-02L.pdf target="blank">BBY52-02L</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=597&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-INF-0402-001_datasheet.pdf" target="blank">VAR-INF-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Varactor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BFP420 data-key-5=%20% data-key-6=The%20%BJT-INF-BFP420%20%is%20%a%20%non-linear%20%Gummel-Poon%20%model%20%for%20%the%20%Infineon%20%BFP420%20%NPN%20%BJT%20%in%20%a%20%SOT343%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%thickness,%20%relative%20%dielectric%20%constant,%20%conductor%20%thickness,%20%and%20%substrate%20%loss%20%tangent%20%and%20%temperature.%20%The%20%model%20%is%20%designed%20%for%20%use%20%in%20%high%20%gain%20%low-noise%20%amplifiers. data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BFP420.pdf target="blank">BFP420</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=54&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-INF-BFP420_datasheet.pdf" target="blank">BJT-INF-BFP420</a> </td> <td width="10%"> SOT-343 </td> <td width="10%"> NPNBJT </td> <td width="10%"> 6 </td> <td width="10%"> 6 dBm </td> <td width="10%"> </td> <td width="10%"> SS, TS, NP, FL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BFR949F data-key-5=%20% data-key-6=The%20%BJT-INF-BFP949%20%is%20%a%20%non-linear%20%Gummel-Poon%20%model%20%for%20%the%20%Infineon%20%BFP949%20%NPN%20%Si%20%BJT%20%in%20%a TSFP%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%8 GHz.%20%Users%20%specify%20%substrate%20%thickness,%20%relative%20%dielectric%20%constant,%20%conductor%20%thickness%20%and%20%dielectric loss%20%tangent.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%low-noise%20%high%20%gain%20%broadband%20%amplifiers. data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BFR949F.pdf target="blank">BFR949F</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=55&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-INF-BFP949_datasheet.pdf" target="blank">BJT-INF-BFP949</a> </td> <td width="10%"> Case R </td> <td width="10%"> NPNBJT </td> <td width="10%"> 8 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BF999 data-key-5=%20% data-key-6=The%20%MOSFET%20%MOS-INF-BF999%20%is%20%a%20%non-linear%20%%20%model%20%for%20%the%20%Infineon%20%BF999%20%MOSFET%20%in%20%a%20%SOT23%20%package%20%based%20%on%20%the%20%extraction%20%of%20%Motorola%20%Electro%20%Thermal%20%(MET)%20%model%20%.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%2%20%GHz.%20%The%20%model%20%is%20%designed%20%for%20%use%20%in%20%high%20%frequency%20%stages%20%(frequencies%20%up%20%to%20%300%20%MHz)%20%in%20%FM%20%applications.%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BF999.pdf target="blank">BF999</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=449&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-INF-BF999_datasheet.pdf" target="blank">MOS-INF-BF999</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PTF080101S data-key-5=%20% data-key-6=MOS-INF-PTF080101S%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Infineon%20%PTF080101S%20%internally-matched%20%high%20%power%20%RF%20%LDMOSFET%20%based%20%on%20%the%20%extraction%20%of%20%MET%20%model.%20%The%20%model%20%is%20%intended%20%to%20%be%20%used%20%in%20%broadband%20%commercial%20%and%20%industrial%20%applications%20%with%20%frequency%20%up%20%to%20%1GHz,%20%especially%20%for%20%EDGE%20%and%20%CDMA%20%applications.%20%%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/PTF080101S.pdf target="blank">PTF080101S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=450&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-INF-PTF080101S_datasheet.pdf" target="blank">MOS-INF-PTF080101S</a> </td> <td width="10%"> FV1206-1 </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PTFA043002E data-key-5=%20% data-key-6=MOS-INF-PTFA043002E%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Infineon%20%PTFA043002E%20%internally-matched%20%high%20%power%20%RF%20%LDMOSFET%20%based%20%on%20%the%20%extraction%20%of%20%MET%20%model.%20%The%20%model%20%is%20%intended%20%to%20%be%20%used%20%in%20%analog%20%and%20%digital%20%broadcast%20%applications%20%with%20%frequency%20%up%20%to%20%860MHz. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/PTFA043002E.pdf target="blank">PTFA043002E</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=451&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-INF-PTFA043002E_datasheet.pdf" target="blank">MOS-INF-PTFA043002E</a> </td> <td width="10%"> Package 30275 </td> <td width="10%"> MOSFET </td> <td width="10%"> 1 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAR64-03W data-key-5=%20% data-key-6=The%20%PIN-INF-D323-001%20%model%20%is%20%a%20%substrate%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Infineon%20%%20%BAR64-03W%20%PIN%20%diode%20%in%20%a%20%SOD-323%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%The%20%junction%20%capacitance%20%and%20%series%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%diode%20%is%20%designed%20%for%20%RF%20%attenuator%20%and%20%switches%20%applications%20%in%20%the%20%frequency%20%range%20%DC%20%to%20%6%20%GHz.%20%%20% data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAR64-03W.pdf target="blank">BAR64-03W</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=473&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-INF-D323-001_datasheet.pdf" target="blank">PIN-INF-D323-001</a> </td> <td width="10%"> SOD-323 </td> <td width="10%"> PINDiode </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAR88-02V data-key-5=%20% data-key-6=The%20%PIN_INF_SC79_001%20%is%20%a%20%substrate%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Infineon%20%BAR8802V%20%single%20%configuration%20%PIN%20%diode%20%in%20%a%20%SC-79%20%package.%20%%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%%20%The%20%model%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%%20%Junction%20%capacitance%20%and%20%series%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%%20%The%20%part%20%is%20%designed%20%for%20%low%20%current%20%antenna%20%switches%20%in%20%hand%20%held%20%applications.%20% data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAR88-02V.pdf target="blank">BAR88-02V</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=474&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-INF-SC79-001_datasheet.pdf" target="blank">PIN-INF-SC79-001</a> </td> <td width="10%"> SC-79 </td> <td width="10%"> PINDiode </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAS40 data-key-5=%20% data-key-6=The%20%SKD-INF-ST23-001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Infineon%20%BAS40%20%Schottky%20%diode%20%in%20%a%20%SOT-23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%7%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%switching%20%applications.%20% data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAS40.pdf target="blank">BAS40</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=539&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-ST23-001_datasheet.pdf" target="blank">SKD-INF-ST23-001</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 7 </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAS40 data-key-5=%20% data-key-6=The%20%SKD-INF-ST23-001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Infineon%20%BAS40%20%Schottky%20%diode%20%in%20%a%20%SOT-23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%7%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%switching%20%applications. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAS40.pdf target="blank">BAS40</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=540&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-ST23-001-S_datasheet.pdf" target="blank">SKD-INF-ST23-001-S</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 7 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAS40-04 data-key-5=%20% data-key-6=The%20%SKD-INF-ST23-002%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Infineon%20%BAS40-04%20%Schottky%20%diode%20%in%20%a%20%SOT-23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%switching%20%applications.%20% data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAS40-04.pdf target="blank">BAS40-04</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=541&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-ST23-002_datasheet.pdf" target="blank">SKD-INF-ST23-002</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 6 </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAS40-05 data-key-5=%20% data-key-6=The%20%SKD-INF-ST23-003%20%is%20%a%20%substrate%20%scalable%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Infineon%20%BAS40-05%20%dual%20%Schottky%20%diode%20%in%20%a%20%SOT23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAS40-05.pdf target="blank">BAS40-05</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=542&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-ST23-003_datasheet.pdf" target="blank">SKD-INF-ST23-003</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 6 </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAS40-06 data-key-5=%20% data-key-6=The%20%SKD-INF-ST23-004%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Infineon%20%BAS40-06%20%Schottky%20%diode%20%in%20%a%20%SOT-23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%switching%20%applications. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAS40-06.pdf target="blank">BAS40-06</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=543&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-ST23-004_datasheet.pdf" target="blank">SKD-INF-ST23-004</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 6 </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAS70 data-key-5=%20% data-key-6=The%20%SKD-INF-ST23-005%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Infineon%20%BAS70%20%Schottky%20%diode%20%in%20%a%20%SOT-23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%switching%20%applications. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAS70.pdf target="blank">BAS70</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=544&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-ST23-005_datasheet.pdf" target="blank">SKD-INF-ST23-005</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 7 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAS70-04 data-key-5=%20% data-key-6=The%20%SKD-INF-ST23-006%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Infineon%20%BAS70-04%20%Schottky%20%diode%20%in%20%a%20%SOT-23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%switching%20%applications. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAS70-04.pdf target="blank">BAS70-04</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=545&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-ST23-006_datasheet.pdf" target="blank">SKD-INF-ST23-006</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAS70-05 data-key-5=%20% data-key-6=The%20%SKD-INF-ST23-007%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Infineon%20%BAS70-05%20%Schottky%20%diode%20%in%20%a%20%SOT-23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%switching%20%applications. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAS70-05.pdf target="blank">BAS70-05</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=546&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-ST23-007_datasheet.pdf" target="blank">SKD-INF-ST23-007</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BFY193C data-key-5=%20% data-key-6=The%20%BJT-INF-BFY193C%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Infineon%20%BFY193C%20%Micro-X1%20%package%20%HiRel%20%NPN%20%silicon%20%RF%20%bipolar%20%transistor,%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Gummel-Poon%20%model%20%(additional%20%information%20%is%20%available%20%at%20%https://www.infineon.com).%20%This%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%in%20%low%20%noise,%20%high-gain%20%amplifier%20%designs%20%operating%20%up%20%to%20%2%20%GHz. data-key-8=BJT/HBT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BFY193C.pdf target="blank">BFY193C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1367&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBJT%2FHBT%2FBJT-INF-BFY193C_datasheet.pdf" target="blank">BJT-INF-BFY193C</a> </td> <td width="10%"> Micro-X package </td> <td width="10%"> BJT/HBT </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAS52-02V data-key-5=%20% data-key-6=The%20%SKD-INF-SC79-001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Infineon%20%BAS52-02V%20%Schottky%20%Diode,%20%featuring%20%a%20%SC79%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.infineon.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%40%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%switching%20%applications%20% data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAS52-02V.pdf target="blank">BAS52-02V</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1348&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-SC79-001_datasheet.pdf" target="blank">SKD-INF-SC79-001</a> </td> <td width="10%"> SC-79 </td> <td width="10%"> Schottky </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BAS3010S-02LRH data-key-5=%20% data-key-6=The%20%SKD-INF-TSLP-001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Infineon%20%BAS3010S-02RLH%20%Schottky%20%Diode,%20%featuring%20%a%20%TSLP-2-17%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.infineon.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%40%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%low%20%forward%20%voltage%20%and%20%use%20%in%20%switching%20%applications. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Infineon <td width="10%"> <a href=/models/Vendor/Infineon/BAS3010S-02LRH.pdf target="blank">BAS3010S-02LRH</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1349&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-TSLP-001_datasheet.pdf" target="blank">SKD-INF-TSLP-001</a> </td> <td width="10%"> TSLP-2-17 </td> <td width="10%"> Schottky </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, SS, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R14 data-key-5=%20% data-key-6=The%20%CAP-JDI-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%JDI%20%P/N%20%R14%20%MLCC%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansondielectrics.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> JDI <td width="10%"> <a href=/models/Vendor/JDI/R14.pdf target="blank">R14</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=6&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JDI-0603-001_datasheet.pdf" target="blank">CAP-JDI-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.5-2200 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R15 data-key-5=%20% data-key-6=The%20%CAP-JDI-0805-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%JDI%20%P/N%20%R15%20%MLCC%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansondielectrics.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> JDI <td width="10%"> <a href=/models/Vendor/JDI/R15.pdf target="blank">R15</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=7&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JDI-0805-001_datasheet.pdf" target="blank">CAP-JDI-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 0.7-2000 pF </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R07S data-key-5=%20% data-key-6=The%20%CAP-JOH-0402-001%20%is%20%a%20%substrate-scalable%20%Global%20%Models™%20%for%20%the%20%Johanson%20%P/N%20%R07S%20%surface%20%mount%20%chip%20%capacitor%20%family.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%.%20%%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/R07S.pdf target="blank">R07S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=150&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-0402-001_datasheet.pdf" target="blank">CAP-JOH-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 pF - 33 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R14S data-key-5=%20% data-key-6=The%20%CAP-JOH-0603-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Johanson%20%P/N%20%R14S%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansontechnology.com%20%).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/R14S.pdf target="blank">R14S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=152&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-0603-101_datasheet.pdf" target="blank">CAP-JOH-0603-101</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 pF -100 pF </td> <td width="10%"> 3D, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=S42E data-key-5=%20% data-key-6=The%20%CAP-JOH-S42E-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Johanson%20%P/N%20%S42E%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansontechnology.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/S42E.pdf target="blank">S42E</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=154&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-S42E-001_datasheet.pdf" target="blank">CAP-JOH-S42E-001</a> </td> <td width="10%"> 1111 </td> <td width="10%"> Capacitor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 0.2 pF - 1000 pF </td> <td width="10%"> SS, VS, PS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=L-05Cxxx data-key-5=%20% data-key-6=The%20%IND-JOH-0201-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Johanson%20%P/N%20%L-05Cxxxx%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansontechnology.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/L-05Cxxx.pdf target="blank">L-05Cxxx</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=369&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-JOH-0201-001_datasheet.pdf" target="blank">IND-JOH-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> 0 </td> <td width="10%"> 1 - 39 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=L-07Wxxx data-key-5=%20% data-key-6=The%20%IND-JOH-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Johanson%20%P/N%20%L-07Wxxxx%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansontechnology.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/L-07Wxxx.pdf target="blank">L-07Wxxx</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=370&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-JOH-0402-001_datasheet.pdf" target="blank">IND-JOH-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.0 - 120 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=L-07Cxxx data-key-5=%20% data-key-6=The%20%IND-JOH-0402-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Johanson%20%P/N%20%L-07Cxxxx%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansontechnology.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/L-07Cxxx.pdf target="blank">L-07Cxxx</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=371&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-JOH-0402-002_datasheet.pdf" target="blank">IND-JOH-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1 - 120 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R07S data-key-5=%20% data-key-6=The%20%CAP-JOH-0402-001-S%20%is%20%a%20%substrate-scalable%20%Global%20%Model™%20%for%20%the%20%Johanson%20%P/N%20%R07S%20%surface%20%mountchip%20%capacitor%20%family.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printedcircuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metalthickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Modelsaccount%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalableGlobal%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%.A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/R07S.pdf target="blank">R07S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=1017&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-0402-001-S_datasheet.pdf" target="blank">CAP-JOH-0402-001-S</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 33 pF </td> <td width="10%"> BB, PS, SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=L-14C data-key-5=%20% data-key-6=n/a data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/L-14C.pdf target="blank">L-14C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=860&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-JOH-0603-001_datasheet.pdf" target="blank">IND-JOH-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 1 nH - 220 nH </td> <td width="10%"> </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R15G data-key-5=%20% data-key-6=The%20%CAP-JOH-0805-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Johanson%20%P/N%20%R15G%20%surface mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansondielectrics.com).%20%The%20%models are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%mount%20%configurations.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/R15G.pdf target="blank">R15G</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=873&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-0805-002_datasheet.pdf" target="blank">CAP-JOH-0805-002</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.3 - 100 pF </td> <td width="10%"> SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R15S data-key-5=%20% data-key-6=The%20%CAP-JOH-0805-101%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Johanson%20%P/N%20%R15S%20%surface mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansontechnology.com).%20%The%20%models are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%effective%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/R15S.pdf target="blank">R15S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=801&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-0805-101_datasheet.pdf" target="blank">CAP-JOH-0805-101</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 220 pF </td> <td width="10%"> SS, VS, PS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R05L data-key-5=%20% data-key-6=The%20%CAP-JOH-0201-201%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Johanson%20%P/N%20%R05L%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansontechnology.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/R05L.pdf target="blank">R05L</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=670&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-0201-201_datasheet.pdf" target="blank">CAP-JOH-0201-201</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.2 pF - 56 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QCCF data-key-5=%20% data-key-6=The%20%CAP-JOH-0402-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Johanson%20%Technology%20%P/N QCCF%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansontechnology.com). The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters. Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate scalable,%20%pad%20%scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/QCCF.pdf target="blank">QCCF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=1504&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-0402-002_datasheet.pdf" target="blank">CAP-JOH-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1 to 33 pF </td> <td width="10%"> SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QCCP data-key-5=%20% data-key-6=The%20%CAP-JOH-0603-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Johanson%20%Technology%20%P/N QCCP%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at www.johansontechnology.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate (or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance (ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad%20%scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/QCCP.pdf target="blank">QCCP</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=1505&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-0603-002_datasheet.pdf" target="blank">CAP-JOH-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.2 to 100 pF </td> <td width="10%"> SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QCCT data-key-5=%20% data-key-6=The%20%CAP-JOH-0805-003%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Johanson%20%Technology%20%P/N QCCT%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.johansontechnology.com). The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters. Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate scalable,%20%pad%20%scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Johanson <td width="10%"> <a href=/models/Vendor/Johanson/QCCT.pdf target="blank">QCCT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=1506&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-0805-003_datasheet.pdf" target="blank">CAP-JOH-0805-003</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.3 to 220 pF </td> <td width="10%"> SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0402(C0G) data-key-5=%20% data-key-6=The%20%CAP-KMT-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0402%20%C0G%20%dielectric%20%type%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%prediction%20%is%20%enabled%20%in%20%this%20%equivalent%20%circuit%20%model.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0402(C0G).pdf target="blank">C0402(C0G)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=156&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0402-001_datasheet.pdf" target="blank">CAP-KMT-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> 10-100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0402(X7R) data-key-5=%20% data-key-6=The%20%CAP-KMT-0402-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0402%20%X7R%20%dielectric%20%type%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0402(X7R).pdf target="blank">C0402(X7R)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=157&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0402-002_datasheet.pdf" target="blank">CAP-KMT-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 470-100,000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0402(X5R) data-key-5=%20% data-key-6=The%20%CAP-KMT-0402-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0402%20%X5R%20%dielectric%20%type%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%prediction%20%is%20%enabled%20%in%20%this%20%equivalent%20%circuit%20%model.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0402(X5R).pdf target="blank">C0402(X5R)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=158&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0402-003_datasheet.pdf" target="blank">CAP-KMT-0402-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> 0.1-1 uF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0603 data-key-5=%20% data-key-6=The%20%CAP-KMT-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0603%20%C0G,%20%X7R%20%and%20%X5R%20%dielectric%20%type%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0603.pdf target="blank">C0603</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=160&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0603-001_datasheet.pdf" target="blank">CAP-KMT-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 14 </td> <td width="10%"> </td> <td width="10%"> 0.75 pF - 1uF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0805(NP0) data-key-5=%20% data-key-6=The%20%CAP-KMT-0805-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0805%20%NPO%20%type%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%prediction%20%is%20%enabled%20%in%20%this%20%equivalent%20%circuit%20%model.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0805(NP0).pdf target="blank">C0805(NP0)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=162&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0805-001_datasheet.pdf" target="blank">CAP-KMT-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1-680 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0805(X7R) data-key-5=%20% data-key-6=The%20%CAP-KMT-0805-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0805%20%X7R%20%dielectric%20%type%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%prediction%20%is%20%enabled%20%in%20%this%20%equivalent%20%circuit%20%model.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0805(X7R).pdf target="blank">C0805(X7R)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=163&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0805-002_datasheet.pdf" target="blank">CAP-KMT-0805-002</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 330-180000 pF </td> <td width="10%"> SS,PS,TS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0805(C0G) data-key-5=%20% data-key-6=The%20%CAP-KMT-0805-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0805%20%C0G%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0805(C0G).pdf target="blank">C0805(C0G)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=164&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0805-003_datasheet.pdf" target="blank">CAP-KMT-0805-003</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 15-1000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0805(X7R) data-key-5=%20% data-key-6=The%20%CAP-KMT-0805-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0805%20%C0G%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0805(X7R).pdf target="blank">C0805(X7R)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=165&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0805-004_datasheet.pdf" target="blank">CAP-KMT-0805-004</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 220 pf - 1 uF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0805(X5R) data-key-5=%20% data-key-6=The%20%CAP-KMT-0805-005%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Kemet%20%P/N%20%C0805%20%X5R%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0805(X5R).pdf target="blank">C0805(X5R)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=166&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0805-005_datasheet.pdf" target="blank">CAP-KMT-0805-005</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 2.2-4.7 uF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0805(BX) data-key-5=%20% data-key-6=The%20%CAP-KMT-0805-006%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0805%20%BX%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%prediction%20%is%20%enabled%20%in%20%this%20%equivalent%20%circuit%20%model.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0805(BX).pdf target="blank">C0805(BX)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=167&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0805-006_datasheet.pdf" target="blank">CAP-KMT-0805-006</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 470-4700 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CBR08 data-key-5=%20% data-key-6=The%20%CAP-KMT-0805-207%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%CBR08%20%Commercial%20%grade%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=RF Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/CBR08.pdf target="blank">CBR08</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=1447&amp;returnUrl=%2Fmodels%2Fdatasheet%2FRF_Capacitor%2FCAP-KMT-0805-207_datasheet.pdf" target="blank">CAP-KMT-0805-207</a> </td> <td width="10%"> 0805 </td> <td width="10%"> RF Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.2-100 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CBR01 data-key-5=%20% data-key-6=The%20%CAP-KMT-01005-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%CBR01%20%surface mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/CBR01.pdf target="blank">CBR01</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=1451&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-01005-001_datasheet.pdf" target="blank">CAP-KMT-01005-001</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 15 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CBR02 data-key-5=%20% data-key-6=The%20%CAP-KMT-0201-201%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%CBR02%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.yageo.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad%20%scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=RF Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/CBR02.pdf target="blank">CBR02</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=1321&amp;returnUrl=%2Fmodels%2Fdatasheet%2FRF_Capacitor%2FCAP-KMT-0201-201_datasheet.pdf" target="blank">CAP-KMT-0201-201</a> </td> <td width="10%"> 0201 </td> <td width="10%"> RF Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1-39 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CBR04 data-key-5=%20% data-key-6=The%20%CAP-KMT-0402-104%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%CBR04%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.yageo.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad%20%scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=RF Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/CBR04.pdf target="blank">CBR04</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=1334&amp;returnUrl=%2Fmodels%2Fdatasheet%2FRF_Capacitor%2FCAP-KMT-0402-104_datasheet.pdf" target="blank">CAP-KMT-0402-104</a> </td> <td width="10%"> 0402 </td> <td width="10%"> RF Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 100 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CBR04_Auto data-key-5=%20% data-key-6=The%20%CAP-KMT-0402-005%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%CBR04%20%Auto%20%Automotive%20%grade%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%at%20%least%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=RF Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/CBR04_Auto.pdf target="blank">CBR04_Auto</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=1335&amp;returnUrl=%2Fmodels%2Fdatasheet%2FRF_Capacitor%2FCAP-KMT-0402-005_datasheet.pdf" target="blank">CAP-KMT-0402-005</a> </td> <td width="10%"> 0402 </td> <td width="10%"> RF Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 100 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CBR06_Auto data-key-5=%20% data-key-6=The%20%CAP-KMT-0603-003%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%AQ0603%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=RF Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/CBR06_Auto.pdf target="blank">CBR06_Auto</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=1336&amp;returnUrl=%2Fmodels%2Fdatasheet%2FRF_Capacitor%2FCAP-KMT-0603-003_datasheet.pdf" target="blank">CAP-KMT-0603-003</a> </td> <td width="10%"> 0603 </td> <td width="10%"> RF Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 100 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CBR06 data-key-5=%20% data-key-6=The%20%CAP-KMT-0603-102%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%CBR06%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.yageo.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad%20%scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=RF Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/CBR06.pdf target="blank">CBR06</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=1337&amp;returnUrl=%2Fmodels%2Fdatasheet%2FRF_Capacitor%2FCAP-KMT-0603-102_datasheet.pdf" target="blank">CAP-KMT-0603-102</a> </td> <td width="10%"> 0603 </td> <td width="10%"> RF Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.2 - 100 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0805(NP0) data-key-5=%20% data-key-6=The%20%CAP-KMT-0805-001-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0805%20%NPO%20%type%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%prediction%20%is%20%enabled%20%in%20%this%20%equivalent%20%circuit%20%model.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KEMET <td width="10%"> <a href=/models/Vendor/KEMET/C0805(NP0).pdf target="blank">C0805(NP0)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=1441&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0805-001-S_datasheet.pdf" target="blank">CAP-KMT-0805-001-S</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1-680 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=H-Range data-key-5=%20% data-key-6=The%20%CAP-SYF-0402-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Knowles/Syfer%20%P/N%20%0402 HighQ%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.knowlescapacitors.com). The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%mount%20%configurations.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Knowles <td width="10%"> <a href=/models/Vendor/Knowles/H-Range.pdf target="blank">H-Range</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=40&amp;mdl=1046&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-SYF-0402-001_datasheet.pdf" target="blank">CAP-SYF-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1-100 pF </td> <td width="10%"> SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C06UL data-key-5=%20% data-key-6=The%20%CAP-DLI-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%surface%20%mount%20%chip%20%capacitor%20%family%20%%20%http://www.knowlescapacitors.com/dilabs?catid=8%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resi%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Knowles <td width="10%"> <a href=/models/Vendor/Knowles/C06UL.pdf target="blank">C06UL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=40&amp;mdl=140&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-DLI-0603-001_datasheet.pdf" target="blank">CAP-DLI-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> 0 </td> <td width="10%"> 0.1 pF - 47 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C06BL data-key-5=%20% data-key-6=The%20%CAP-DLI-0603-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%surface%20%mount%20%chip%20%capacitor%20%family%20%%20%http://www.knowlescapacitors.com/dilabs?catid=8%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%tha%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Knowles <td width="10%"> <a href=/models/Vendor/Knowles/C06BL.pdf target="blank">C06BL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=40&amp;mdl=141&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-DLI-0603-002_datasheet.pdf" target="blank">CAP-DLI-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> 0 </td> <td width="10%"> DC Block </td> <td width="10%"> BB, OS, SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C08BL data-key-5=%20% data-key-6=The%20%CAP-DLI-0805-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%surface%20%mount%20%chip%20%capacitor%20%family%20%%20%http://www.knowlescapacitors.com/dilabs?catid=8%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Knowles <td width="10%"> <a href=/models/Vendor/Knowles/C08BL.pdf target="blank">C08BL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=40&amp;mdl=142&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-DLI-0805-002_datasheet.pdf" target="blank">CAP-DLI-0805-002</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> 0 </td> <td width="10%"> DC Block </td> <td width="10%"> BB, OS, SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C11UL data-key-5=%20% data-key-6=The%20%CAP-DLI-C11UL-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%surface%20%mount%20%chip%20%capacitor%20%family%20%%20%http://www.knowlescapacitors.com/dilabs?catid=8%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%res%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Knowles <td width="10%"> <a href=/models/Vendor/Knowles/C11UL.pdf target="blank">C11UL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=40&amp;mdl=143&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-DLI-C11UL-001_datasheet.pdf" target="blank">CAP-DLI-C11UL-001</a> </td> <td width="10%"> Case A </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> 0 </td> <td width="10%"> 0.1 pF - 100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Milli-cap data-key-5=%20% data-key-6=The%20%CAP-DLI-MILLI-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%surface%20%mount%20%chip%20%capacitor%20%family%20%%20%http://www.knowlescapacitors.com/dilabs?catid=8%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Knowles <td width="10%"> <a href=/models/Vendor/Knowles/Milli-cap.pdf target="blank">Milli-cap</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=40&amp;mdl=144&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-DLI-MILLI-001_datasheet.pdf" target="blank">CAP-DLI-MILLI-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> 0 </td> <td width="10%"> 0.3 pF - 82 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Opti-cap data-key-5=%20% data-key-6=The%20%CAP-DLI-OPTI-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%P62BN820MA2636%20%surface%20%mount%20%chip%20%capacitor%20%family%20%http://www.knowlescapacitors.com/dilabs?catid=8%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%values%20%within%20%the%20%valid%20%capacitance%20%range%20% The%20%pad%20%dimensions%20%used%20%to%20%develop%20%datasheet%20%width%20%=0.635%20%mm,%20%gap%20%=%20%0.381%20%mm%20%.%20%%20%Frequency%20%Sweep%20%S11%20%(dB)%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20% Legend:%20% ?%20%15mil%20%Alumina,%20%+%20%10mil%20%Quartz,%20% ?%20%Lines%20%-%20%Model,%20%Symbols%20%-%20%Measured%20%data.%20%%20%Measured%20%data%20%stops%20%at%20%highest%20%valid%20%frequency%20%for%20%each%20%substrate.%20%S11%20%for%20%Opti-Cap%20%(100%20%nF)%20%capacitor%20%mounted%20%substrates%20%from%20%0.04%20%to%20%35%20%GHz.%20%%20%%20%%20% Model%20%Features%20% %20%Broadband%20%validation:%20%DC%20%%20%Equivalent%20%circuit%20%based%20%%20%Substrate%20%scalable:%20%(1.6%20% = %20%H/Er%20%%20%Land%20%Pattern%20%(Pad)%20%scalable%20%Accurate%20%effective%20%series%20%resistance%20%DC%20%blocking%20%capacitor%20%(100%20%nF)%20%Developed%20%for%20%microstrip%20%interconnects sales@modelithics.com%20% 5%20%10%20%15%20%200 -2.0 -1.5 -1.0 -0.5 -2.5 0.0 Frequency%20%(GHz) S21%20%(dB) 25%20%30%20%35 Frequency%20%(GHz) surface%20%mount%20%chip%20%capacitor%20%model CAP-DLIDC%20%Block%20%(%20%0603%20%Body%20%Style is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Dielectric%20%Laboratories%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.knowlescapacitors.com/dilabs?catid=8).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%appl%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%hin%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Knowles <td width="10%"> <a href=/models/Vendor/Knowles/Opti-cap.pdf target="blank">Opti-cap</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=40&amp;mdl=145&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-DLI-OPTI-001_datasheet.pdf" target="blank">CAP-DLI-OPTI-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 35 </td> <td width="10%"> 0 </td> <td width="10%"> DC Block </td> <td width="10%"> BB, SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HighQUltraLowESR data-key-5=%20% data-key-6=The%20%CAP-SYF-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Syfer%20%High%20%Q%20%Ultra%20%Low%20%ESR%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.dovercmp.com/syfer).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%prediction%20%is%20%enabled%20%in%20%this%20%equivalent%20%circuit%20%model.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Knowles <td width="10%"> <a href=/models/Vendor/Knowles/HighQUltraLowESR.pdf target="blank">HighQUltraLowESR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=40&amp;mdl=207&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-SYF-0603-001_datasheet.pdf" target="blank">CAP-SYF-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.5-100 pF </td> <td width="10%"> SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HFC1005 data-key-5=%20% data-key-6=The%20%CAP-KOA-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%KOA%20%Speer%20%P/N%20%HFC1005%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/HFC1005.pdf target="blank">HFC1005</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=169&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KOA-0402-001_datasheet.pdf" target="blank">CAP-KOA-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> 0 </td> <td width="10%"> 0.2 - 0.6 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RK73x1H(RK73B) data-key-5=%20% data-key-6=The%20%RES-KOA-0201-201%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%KOA%20%Speer%20%Electronics%20%P/N%20%RK73x1H%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/RK73x1H(RK73B).pdf target="blank">RK73x1H(RK73B)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=516&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-0201-201_datasheet.pdf" target="blank">RES-KOA-0201-201</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0-1M Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RK73x1E(RK73H) data-key-5=%20% data-key-6=The%20%RES-KOA-0402-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%KOA%20%Speer%20%Electronics%20%P/N%20%RK73x1E%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/RK73x1E(RK73H).pdf target="blank">RK73x1E(RK73H)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=518&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-0402-101_datasheet.pdf" target="blank">RES-KOA-0402-101</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1 – 4.75M Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RK73B1J(RK73H) data-key-5=%20% data-key-6=The%20%RES-KOA-0603-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%KOA%20%Speer%20%Electronics%20%P/N%20%RK73x1J%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/RK73B1J(RK73H).pdf target="blank">RK73B1J(RK73H)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=521&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-0603-101_datasheet.pdf" target="blank">RES-KOA-0603-101</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1 – 1M Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RK73B2A data-key-5=%20% data-key-6=The%20%RES-KOA-0805-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%KOA%20%Speer%20%Electronics%20%P/N%20%RK73B2A%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/RK73B2A.pdf target="blank">RK73B2A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=522&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-0805-001_datasheet.pdf" target="blank">RES-KOA-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> 0 </td> <td width="10%"> 0 - 22 k Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RK73B2B data-key-5=%20% data-key-6=The%20%RES-KOA-1206-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%KOA%20%Speer%20%Electronics%20%P/N%20%RK73B2B%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/RK73B2B.pdf target="blank">RK73B2B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=523&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-1206-001_datasheet.pdf" target="blank">RES-KOA-1206-001</a> </td> <td width="10%"> 1206 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> 0 </td> <td width="10%"> 0 - 11 k Ohms </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RK73x3A data-key-5=%20% data-key-6=The%20%RES-KOA-2512-101%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%ModelTM%20%for%20%the%20%KOA%20%Speer%20%Electronics%20%P/N RK73x3A%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable Microwave%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/RK73x3A.pdf target="blank">RK73x3A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=898&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-2512-101_datasheet.pdf" target="blank">RES-KOA-2512-101</a> </td> <td width="10%"> 2512 </td> <td width="10%"> Resistor </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> 1-10M Ohms </td> <td width="10%"> PS, SS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RK73x2E data-key-5=%20% data-key-6=The%20%RES-KOA-1210-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%ModelTM%20%for%20%the%20%KOA%20%Speer%20%Electronics%20%P/N RK73x2E%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable Microwave%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/RK73x2E.pdf target="blank">RK73x2E</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=792&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-1210-001_datasheet.pdf" target="blank">RES-KOA-1210-001</a> </td> <td width="10%"> 1210 </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1 - 10M Ohms </td> <td width="10%"> PS,SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RK73x1J data-key-5=%20% data-key-6=The%20%RES-KOA-0603-101-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%KOA%20%Speer%20%Electronics%20%P/N%20%RK73x1J%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/RK73x1J.pdf target="blank">RK73x1J</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=708&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-0603-101-S_datasheet.pdf" target="blank">RES-KOA-0603-101-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1 – 1M Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WK73S3A data-key-5=%20% data-key-6=The%20%RES-KOA-1225-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%ModelTM%20%for%20%the%20%KOA%20%Speer%20%Electronics%20%P/N%20%WK73S3A%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%arasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/WK73S3A.pdf target="blank">WK73S3A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=715&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-1225-001_datasheet.pdf" target="blank">RES-KOA-1225-001</a> </td> <td width="10%"> 1225 </td> <td width="10%"> Resistor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> .01 - 9 Ohms </td> <td width="10%"> PS,SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RK73H data-key-5=%20% data-key-6=The%20%RES-KOA-01005-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%KOA%20%P/N%20%RK73H%20%thick%20%film%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.koaspeer.com/).%20%The%20%models%20%are%20%for%20%use%20%%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KOA <td width="10%"> <a href=/models/Vendor/KOA/RK73H.pdf target="blank">RK73H</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1214&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-01005-001_datasheet.pdf" target="blank">RES-KOA-01005-001</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Resistor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 10 – 499K Ohm </td> <td width="10%"> BB, SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Accu-L(L0201) data-key-5=%20% data-key-6=The%20%IND-AVX-0201-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%Accu%20%L0201%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/Accu-L(L0201).pdf target="blank">Accu-L(L0201)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=312&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-AVX-0201-001_datasheet.pdf" target="blank">IND-AVX-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 24 </td> <td width="10%"> </td> <td width="10%"> 0.33-3.3 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Accu-L(L0402) data-key-5=%20% data-key-6=The%20%IND-AVX-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%L0402%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/Accu-L(L0402).pdf target="blank">Accu-L(L0402)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=313&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-AVX-0402-001_datasheet.pdf" target="blank">IND-AVX-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.82-6.8 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HLQ02 data-key-5=%20% data-key-6=The%20%IND-AVX-0402-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%HLQ02%20%Hi-Q%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/HLQ02.pdf target="blank">HLQ02</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=314&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-AVX-0402-002_datasheet.pdf" target="blank">IND-AVX-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.8-32 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HLC02 data-key-5=%20% data-key-6=The%20%IND-AVX-0402-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%HLC02%20%High%20%Current%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/HLC02.pdf target="blank">HLC02</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=315&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-AVX-0402-003_datasheet.pdf" target="blank">IND-AVX-0402-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.8-32 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HL02 data-key-5=%20% data-key-6=The%20%IND-AVX-0402-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%HL02%20%Tight%20%Tolerance%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/HL02.pdf target="blank">HL02</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=316&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-AVX-0402-004_datasheet.pdf" target="blank">IND-AVX-0402-004</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.8-32 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Accu-L(L0603) data-key-5=%20% data-key-6=The%20%IND-AVX-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%Accu-L%20%0603%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/Accu-L(L0603).pdf target="blank">Accu-L(L0603)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=317&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-AVX-0603-001_datasheet.pdf" target="blank">IND-AVX-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.2-15 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Accu-L(L0805) data-key-5=%20% data-key-6=The%20%IND-AVX-0805-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%Accu-L%20%0805%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/Accu-L(L0805).pdf target="blank">Accu-L(L0805)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=318&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-AVX-0805-001_datasheet.pdf" target="blank">IND-AVX-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.2-22 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CP0402AxxxxAN data-key-5=%20% data-key-6=The%20%CPL-AVX-CP0402A-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%CP0402AxxxxAN%20%surface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CP0402AxxxxAN.pdf target="blank">CP0402AxxxxAN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=222&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-CP0402A-001_datasheet.pdf" target="blank">CPL-AVX-CP0402A-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Coupler </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CP0402AxxxxBN data-key-5=%20% data-key-6=The%20%CPL-AVX-CP0402-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%CP0402AxxxxBN%20%surface%20%%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CP0402AxxxxBN.pdf target="blank">CP0402AxxxxBN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=223&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-CP0402A-002_datasheet.pdf" target="blank">CPL-AVX-CP0402A-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Coupler </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CP0402AxxxxCN data-key-5=%20% data-key-6=The%20%CPL-AVX-CP0402A-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%CP0402AxxxxCNsurface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CP0402AxxxxCN.pdf target="blank">CP0402AxxxxCN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=224&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-CP0402A-003_datasheet.pdf" target="blank">CPL-AVX-CP0402A-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Coupler </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CP0402AxxxxDN data-key-5=%20% data-key-6=The%20%CPL-AVX-CP0402A-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%CP0402AxxxxDNsurface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CP0402AxxxxDN.pdf target="blank">CP0402AxxxxDN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=225&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-CP0402A-004_datasheet.pdf" target="blank">CPL-AVX-CP0402A-004</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Coupler </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CP0402AxxxxEN data-key-5=%20% data-key-6=The%20%CPL-AVX-CP0402A-005%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%CP0402AxxxxEN%20%surface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CP0402AxxxxEN.pdf target="blank">CP0402AxxxxEN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=226&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-CP0402A-005_datasheet.pdf" target="blank">CPL-AVX-CP0402A-005</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Coupler </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CP0402AxxxxFN data-key-5=%20% data-key-6=The%20%CPL-AVX-CP0402A-006%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%CP0402AxxxxFNsurface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CP0402AxxxxFN.pdf target="blank">CP0402AxxxxFN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=227&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-CP0402A-006_datasheet.pdf" target="blank">CPL-AVX-CP0402A-006</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Coupler </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CP0402W2700FN data-key-5=%20% data-key-6=The%20%CPL-AVX-CP0402W-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%CP0402W2700FN%20%surface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CP0402W2700FN.pdf target="blank">CP0402W2700FN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=228&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-CP0402W-001_datasheet.pdf" target="blank">CPL-AVX-CP0402W-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Coupler </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CP0603 data-key-5=%20% data-key-6=The%20%CPL-AVX-CP0603A-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%CP0603A****AL%20%surface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CP0603.pdf target="blank">CP0603</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=229&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-CP0603A-001_datasheet.pdf" target="blank">CPL-AVX-CP0603A-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Coupler </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DB0603N2140AN data-key-5=%20% data-key-6=The%20%CPL-AVX-DB0603N-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%DB0603N2140ANTR%20%surface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/DB0603N2140AN.pdf target="blank">DB0603N2140AN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=230&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-DB0603N-001_datasheet.pdf" target="blank">CPL-AVX-DB0603N-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Coupler </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DB0603N2400AN data-key-5=%20% data-key-6=The%20%CPL-AVX-DB0603N-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%DB0603N2400ANTR%20%surface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/DB0603N2400AN.pdf target="blank">DB0603N2400AN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=231&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-DB0603N-002_datasheet.pdf" target="blank">CPL-AVX-DB0603N-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Coupler </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DB0603N3000AN data-key-5=%20% data-key-6=The%20%CPL-AVX-DB0603N-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%DB0603N3000ANTR%20%surface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/DB0603N3000AN.pdf target="blank">DB0603N3000AN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=232&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-DB0603N-003_datasheet.pdf" target="blank">CPL-AVX-DB0603N-003</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Coupler </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DB0603N3500AN data-key-5=%20% data-key-6=The%20%CPL-AVX-DB0603N-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%DB0603N3500ANTR%20%surface%20%mount%20%Coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/DB0603N3500AN.pdf target="blank">DB0603N3500AN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=233&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-DB0603N-004_datasheet.pdf" target="blank">CPL-AVX-DB0603N-004</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Coupler </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=KGM02xCG data-key-5=%20% data-key-6=The%20%CAP-AVX-01005-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%0101YA%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/KGM02xCG.pdf target="blank">KGM02xCG</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=105&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-01005-001_datasheet.pdf" target="blank">CAP-AVX-01005-001</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.3 pF-100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Accu-P_ data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%0201%20%Accu-P%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/Accu-P_.pdf target="blank">Accu-P_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=110&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-004_datasheet.pdf" target="blank">CAP-AVX-0201-004</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.05 pF -22 pF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Accu-P_ data-key-5=%20% data-key-6=The%20%CAP-AVX-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%ACCU-P%20%series%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/Accu-P_.pdf target="blank">Accu-P_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=112&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0402-001_datasheet.pdf" target="blank">CAP-AVX-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 pF -33 pF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=KGM15xCG data-key-5=%20% data-key-6=The%20%CAP-AVX-0603-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%AVX%20%P/N%20%0603xA%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%families%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/KGM15xCG.pdf target="blank">KGM15xCG</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=119&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0603-003_datasheet.pdf" target="blank">CAP-AVX-0603-003</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 14 </td> <td width="10%"> </td> <td width="10%"> 3.3 pF -1000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=KGM15xR7 data-key-5=%20% data-key-6=The%20%CAP-AVX-0603-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%AVX%20%P/N%20%0603xC%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%families%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/KGM15xR7.pdf target="blank">KGM15xR7</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=120&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0603-004_datasheet.pdf" target="blank">CAP-AVX-0603-004</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 14 </td> <td width="10%"> </td> <td width="10%"> 560 pF -220000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ML03 data-key-5=%20% data-key-6=The%20%CAP-AVX-0603-007%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%ML03%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/ML03.pdf target="blank">ML03</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=123&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0603-007_datasheet.pdf" target="blank">CAP-AVX-0603-007</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 pF -2.5 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=KGM21xCG data-key-5=%20% data-key-6=The%20%CAP-AVX-0805-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%08051A%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/KGM21xCG.pdf target="blank">KGM21xCG</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=126&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0805-001_datasheet.pdf" target="blank">CAP-AVX-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.5 pF - 1000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=KGQ32xCG data-key-5=%20% data-key-6=The%20%CAP-AVX-1210-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%12101U%20%series%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/KGQ32xCG.pdf target="blank">KGQ32xCG</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=135&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-1210-001_datasheet.pdf" target="blank">CAP-AVX-1210-001</a> </td> <td width="10%"> 1210 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 3.3 pF - 1000 pF </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=02013A data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-101%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%02013A%20%surfacemount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%withmicrostrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrateheight,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%padlength,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequencypairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalentseries%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%availablethat%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%padstack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/02013A.pdf target="blank">02013A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1010&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-101_datasheet.pdf" target="blank">CAP-AVX-0201-101</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.5 - 100 pF </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0201YC data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-102%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%02013YC%20%series%20%X7R%20%surfacemount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstripapplications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%inputparameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonantfrequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%padscalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitancerange.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/0201YC.pdf target="blank">0201YC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1011&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-102_datasheet.pdf" target="blank">CAP-AVX-0201-102</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 100- 1000 pF </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0201YD data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-103%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%0201YD%20%(1200%20%to%20%2200%20%pF),0201ZD%20%(2700%20%to%20%10000%20%pF),%20%and%20%02016D%20%(22000%20%pF%20%to%20%0.1%20%uF)%20%series%20%X5R%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%family(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%forsubstrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnectmetal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%forup%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validatedwith%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%padstack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/0201YD.pdf target="blank">0201YD</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1012&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-103_datasheet.pdf" target="blank">CAP-AVX-0201-103</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1200 pF-0.1 uF </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=U_Series–0603 data-key-5=%20% data-key-6=The%20%CAP-AVX-0603-010%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%U0603%20%surfacemount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%withmicrostrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrateheight,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%padlength,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequencypairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalentseries%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%availablethat%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%padstack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/U_Series–0603.pdf target="blank">U_Series–0603</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1013&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0603-010_datasheet.pdf" target="blank">CAP-AVX-0603-010</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.4 - 120 pF </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CU01 data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-006%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%CU01%20%surface%20%mount chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CU01.pdf target="blank">CU01</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1022&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-006_datasheet.pdf" target="blank">CAP-AVX-0201-006</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.5 - 24 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=KGQ05xCG data-key-5=%20% data-key-6=The%20%CAP-AVX-0402-004%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%0402%20%U%20%series surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/KGQ05xCG.pdf target="blank">KGQ05xCG</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1023&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0402-004_datasheet.pdf" target="blank">CAP-AVX-0402-004</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.2 - 30 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0805xU data-key-5=%20% data-key-6=The%20%CAP-AVX-0805-004%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%0805U%20%surface%20%mount chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/0805xU.pdf target="blank">0805xU</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1024&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0805-004_datasheet.pdf" target="blank">CAP-AVX-0805-004</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 1 - 130 pf </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Accu-P_ data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-004-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%0201%20%Accu-P%20%surface%20%mountchip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%withmicrostrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrateheight,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%padlength%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequencypairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeledover%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%thataccurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%padstack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/Accu-P_.pdf target="blank">Accu-P_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1015&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-004-S_datasheet.pdf" target="blank">CAP-AVX-0201-004-S</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.05 pF - 22 pF </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=KGM31xR7 data-key-5=%20% data-key-6=The%20%CAP-AVX-1206-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%1206%20%X7R%20%series%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%value,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/KGM31xR7.pdf target="blank">KGM31xR7</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1196&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-1206-001_datasheet.pdf" target="blank">CAP-AVX-1206-001</a> </td> <td width="10%"> 1206 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 330.0 – 22000000 pF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MP01 data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-007%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P%20%MP01%20%series%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/MP01.pdf target="blank">MP01</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1171&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-007_datasheet.pdf" target="blank">CAP-AVX-0201-007</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.05 - 22 pF </td> <td width="10%"> BB, SS, PS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MP02 data-key-5=%20% data-key-6=The%20%CAP-AVX-0402-005%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%MP02%20%series%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/MP02.pdf target="blank">MP02</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1172&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0402-005_datasheet.pdf" target="blank">CAP-AVX-0402-005</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.05 to 68 pF </td> <td width="10%"> BB, SS, PS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MP03 data-key-5=%20% data-key-6=The%20%CAP-AVX-0603-011%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%MP03%20%series%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/MP03.pdf target="blank">MP03</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1173&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0603-011_datasheet.pdf" target="blank">CAP-AVX-0603-011</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.05 – 47 pF </td> <td width="10%"> BB, SS, PS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DLA09024 data-key-5=%20% data-key-6=The%20%CAP-AVX-0402-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%DLA09024%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gapare%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/DLA09024.pdf target="blank">DLA09024</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=672&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0402-003_datasheet.pdf" target="blank">CAP-AVX-0402-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 pF - 68 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DLA09025 data-key-5=%20% data-key-6=The%20%CAP-AVX-0603-009%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%DLA09025%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/DLA09025.pdf target="blank">DLA09025</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=673&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0603-009_datasheet.pdf" target="blank">CAP-AVX-0603-009</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 pF - 47 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DLA11017 data-key-5=%20% data-key-6=The%20%IND-AVX-0402-005%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%DLA11017%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/DLA11017.pdf target="blank">DLA11017</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=677&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-AVX-0402-005_datasheet.pdf" target="blank">IND-AVX-0402-005</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.82 - 6.8 nH </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DLA11018 data-key-5=%20% data-key-6=The%20%IND-AVX-0603-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%DLA11018%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/DLA11018.pdf target="blank">DLA11018</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=678&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-AVX-0603-002_datasheet.pdf" target="blank">IND-AVX-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.2 - 15 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DLA11019 data-key-5=%20% data-key-6=The%20%IND-AVX-0805-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%DLA11019%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/DLA11019.pdf target="blank">DLA11019</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=679&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-AVX-0805-002_datasheet.pdf" target="blank">IND-AVX-0805-002</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.2 - 22 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CS12010T0050GTR data-key-5=%20% data-key-6=The%20%RES-AVX-2010-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%RP42010R0050GTTR%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CS12010T0050GTR.pdf target="blank">CS12010T0050GTR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=680&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-2010-001_datasheet.pdf" target="blank">RES-AVX-2010-001</a> </td> <td width="10%"> 2010 </td> <td width="10%"> Resistor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CS12010T0100GTR data-key-5=%20% data-key-6=The%20%RES-AVX-2010-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%RP42010R0100GTTR%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CS12010T0100GTR.pdf target="blank">CS12010T0100GTR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=681&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-2010-002_datasheet.pdf" target="blank">RES-AVX-2010-002</a> </td> <td width="10%"> 2010 </td> <td width="10%"> Resistor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 100 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CW12010T0050GTR data-key-5=%20% data-key-6=The%20%RES-AVX-2010-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%RP52010R0050GTTR%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CW12010T0050GTR.pdf target="blank">CW12010T0050GTR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=682&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-2010-003_datasheet.pdf" target="blank">RES-AVX-2010-003</a> </td> <td width="10%"> 2010 </td> <td width="10%"> Resistor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CW12010T0100GTR data-key-5=%20% data-key-6=The%20%RES-AVX-2010-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%RP5201R0100GTTR%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CW12010T0100GTR.pdf target="blank">CW12010T0100GTR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=683&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-2010-004_datasheet.pdf" target="blank">RES-AVX-2010-004</a> </td> <td width="10%"> 2010 </td> <td width="10%"> Resistor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 100 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CW137250T0050GTR data-key-5=%20% data-key-6=The%20%RES-AVX-3725-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%RP53725R0050GTTR%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CW137250T0050GTR.pdf target="blank">CW137250T0050GTR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=684&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-3725-001_datasheet.pdf" target="blank">RES-AVX-3725-001</a> </td> <td width="10%"> 3725 </td> <td width="10%"> Resistor </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CW137250T0100GTR data-key-5=%20% data-key-6=The%20%RES-AVX-3725-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%RP53725R0100GTTR%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CW137250T0100GTR.pdf target="blank">CW137250T0100GTR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=685&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-3725-002_datasheet.pdf" target="blank">RES-AVX-3725-002</a> </td> <td width="10%"> 3725 </td> <td width="10%"> Resistor </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> 100 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CZ12010T0050GTR data-key-5=%20% data-key-6=The%20%RES-AVX-2010-005%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%RP92010T0050GTTR%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CZ12010T0050GTR.pdf target="blank">CZ12010T0050GTR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=686&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-2010-005_datasheet.pdf" target="blank">RES-AVX-2010-005</a> </td> <td width="10%"> 2010 </td> <td width="10%"> Resistor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CZ13725T0050GTR data-key-5=%20% data-key-6=The%20%RES-AVX-3725-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%RP3725T0050GTTR%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CZ13725T0050GTR.pdf target="blank">CZ13725T0050GTR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=687&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-3725-003_datasheet.pdf" target="blank">RES-AVX-3725-003</a> </td> <td width="10%"> 3725 </td> <td width="10%"> Resistor </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CZ13737T0050GTR data-key-5=%20% data-key-6=The%20%RES-AVX-3737-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%RP93737T0050GTTR%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CZ13737T0050GTR.pdf target="blank">CZ13737T0050GTR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=688&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-3737-001_datasheet.pdf" target="blank">RES-AVX-3737-001</a> </td> <td width="10%"> 3737 </td> <td width="10%"> Resistor </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Accu-P_ data-key-5=%20% data-key-6=The%20%CAP-AVX-0603-102%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%ACCU-P%20%0603%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/Accu-P_.pdf target="blank">Accu-P_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=582&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0603-102_datasheet.pdf" target="blank">CAP-AVX-0603-102</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 pF -47pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=FA10975PXXDB data-key-5=%20% data-key-6=The%20%ATT-AVX-0975-001%20%is%20%a%20%part%20%value%20%selectable%20%equivalent%20%circuit%20%model%20%for%20%the%20%AVX%20%P/N%20%RP10975AxxDB surface%20%mount%20%chip%20%attenuator%20%family. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/FA10975PXXDB.pdf target="blank">FA10975PXXDB</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=760&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-AVX-0975-001_datasheet.pdf" target="blank">ATT-AVX-0975-001</a> </td> <td width="10%"> 0975 </td> <td width="10%"> Attenuator </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 1, 3, 20 and 30 dB </td> <td width="10%"> </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PC2025A2100 data-key-5=%20% data-key-6=The%20%CPL-AVX-PC2025A-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%PC2025A2100A%20%surface%20%mount%20%coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%%20%%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/PC2025A2100.pdf target="blank">PC2025A2100</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=731&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-PC2025A-001_datasheet.pdf" target="blank">CPL-AVX-PC2025A-001</a> </td> <td width="10%"> 2025 </td> <td width="10%"> Coupler </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PC2025A2700 data-key-5=%20% data-key-6=The%20%CPL-AVX-PC2025A-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%PC2025A2700A%20%surface%20%mount%20%coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/PC2025A2700.pdf target="blank">PC2025A2700</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=732&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPL-AVX-PC2025A-002_datasheet.pdf" target="blank">CPL-AVX-PC2025A-002</a> </td> <td width="10%"> 2025 </td> <td width="10%"> Coupler </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CT11020T0050 data-key-5=%20% data-key-6=The%20%RES-AVX-1020-001%20%is%20%a%20%Microwave%20%Global%20%ModelTM%20%for%20%the%20%AVX%20%P/N%20%RP81020T0050%20%from%20%AVX’s%20%RP8%20%series%20%High%20%Power%20%Resistive%20%Products%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%%20%%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CT11020T0050.pdf target="blank">CT11020T0050</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=722&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-1020-001_datasheet.pdf" target="blank">RES-AVX-1020-001</a> </td> <td width="10%"> 1020 </td> <td width="10%"> Resistor </td> <td width="10%"> 18 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CS13737 data-key-5=%20% data-key-6=The%20%RES-AVX-3737-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%ModelTM%20%for%20%the%20%AVX%20%P/N%20%RP43737%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/CS13737.pdf target="blank">CS13737</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=723&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-3737-002_datasheet.pdf" target="blank">RES-AVX-3737-002</a> </td> <td width="10%"> 3737 </td> <td width="10%"> Resistor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 50 - 100 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=KGM21xR7 data-key-5=%20% data-key-6=The%20%CAP-AVX-0805-005%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%08051C%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/KGM21xR7.pdf target="blank">KGM21xR7</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1338&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0805-005_datasheet.pdf" target="blank">CAP-AVX-0805-005</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 330 - 100000000 pF </td> <td width="10%"> BB, SS, VS,PS </td> </tr> <tr data-key-1=PreRelease data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=UBR-Series data-key-5=%20% data-key-6=n/a data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/UBR-Series.pdf target="blank">UBR-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1366&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-AVX-0402-_datasheet.pdf" target="blank">RES-AVX-0402-</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=560W104 data-key-5=%20% data-key-6=The%20%CAP-AVX-01005-004%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%KYOCERA%20%AVX%20%Ultra- Broadband%20%Capacitor%20%(UBC)%20%RF/Microwave%20%Multilayer%20%Capacitors%20%(MLC)%20%AVX%20%P/N%20%560W104,%20%100%20%nF,%20%01005 size%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kyocera-avx.com).%20%The models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%A%20%single,%20%substrate%20%scalable and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/560W104.pdf target="blank">560W104</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1456&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-01005-004_datasheet.pdf" target="blank">CAP-AVX-01005-004</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 100 nF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=550W104 data-key-5=%20% data-key-6=The%20%CAP-AVX-01005-005%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%KYOCERA%20%AVX%20%Ultra- Broadband%20%Capacitor%20%(UBC)%20%RF/Microwave%20%Multilayer%20%Capacitors%20%(MLC)%20%AVX%20%P/N%20%550W104,%20%100%20%nF,%20%01005 size%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.kyocera-avx.com).%20%The%20%models account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/550W104.pdf target="blank">550W104</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1457&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-01005-005_datasheet.pdf" target="blank">CAP-AVX-01005-005</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 100 nF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=600S data-key-5=%20% data-key-6=The%20%CAP-AVX-600S-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%600S%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/600S.pdf target="blank">600S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1492&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-600S-001-S_datasheet.pdf" target="blank">CAP-AVX-600S-001-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 100 pF </td> <td width="10%"> BB, OS, PS, SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=800B data-key-5=%20% data-key-6=The%20%CAP-AVX-800B-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%800B%20%(0.11”%20%x%20%0.11”)%20%NP0%20%ceramic%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%mount%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/800B.pdf target="blank">800B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1493&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-800B-001-S_datasheet.pdf" target="blank">CAP-AVX-800B-001-S</a> </td> <td width="10%"> Case B </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 1000 pF </td> <td width="10%"> BB, OS, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=550Z104 data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-009%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%KYOCERA%20%AVX%20%UltraBroadband%20%Capacitor%20%(UBC)%20%RF/Microwave%20%Multilayer%20%Capacitors%20%(MLC)%20%P/N%20%550Z104%20%,%20%100nF,%20%0201%20%size%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kyocera-avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/550Z104.pdf target="blank">550Z104</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1417&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-009_datasheet.pdf" target="blank">CAP-AVX-0201-009</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 100 nF </td> <td width="10%"> SS, PS, BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=550Z224 data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-010%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%KYOCERA%20%AVX%20%UltraBroadband%20%Capacitor%20%(UBC)%20%RF/Microwave%20%Multilayer%20%Capacitors%20%(MLC)%20%P/N%20%550Z224,%20%220nF,%20%0201%20%size%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kyocera-avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/550Z224.pdf target="blank">550Z224</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1418&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-010_datasheet.pdf" target="blank">CAP-AVX-0201-010</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 220 nF </td> <td width="10%"> SS, PS, BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=560Z104 data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-011%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%KYOCERA%20%AVX%20%UltraBroadband%20%Capacitor%20%(UBC)%20%RF/Microwave%20%Multilayer%20%Capacitors%20%(MLC)%20%P/N%20%560Z104,%20%100nF,%20%0201%20%size surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kyocera-avx.com).%20%The%20%models are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/560Z104.pdf target="blank">560Z104</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1419&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-011_datasheet.pdf" target="blank">CAP-AVX-0201-011</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 100 nF </td> <td width="10%"> SS, PS, BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=560Z224 data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-012%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%KYOCERA%20%AVX%20%UltraBroadband%20%Capacitor%20%(UBC)%20%RF/Microwave%20%Multilayer%20%Capacitors%20%(MLC)%20%AVX%20%P/N%20%560Z224,%20%220nF,%20%0201%20%size%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kyocera-avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/560Z224.pdf target="blank">560Z224</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1420&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-012_datasheet.pdf" target="blank">CAP-AVX-0201-012</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 220 nF </td> <td width="10%"> SS, PS, BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=550W103 data-key-5=%20% data-key-6=The%20%CAP-AVX-01005-003%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%KYOCERA%20%AVX%20%UltraBroadband%20%Capacitor%20%(UBC)%20%RF/Microwave%20%Multilayer%20%Capacitors%20%(MLC)%20%AVX%20%P/N%20%550W103,%20%10nF,%20%01005%20%size%20%%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kyocera-avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/550W103.pdf target="blank">550W103</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1421&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-01005-003_datasheet.pdf" target="blank">CAP-AVX-01005-003</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 10 nF </td> <td width="10%"> SS, PS, BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=550Z data-key-5=%20% data-key-6=The%20%CAP-AVX-0201-008%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%550Z103%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kyocera-avx.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/550Z.pdf target="blank">550Z</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1354&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-008_datasheet.pdf" target="blank">CAP-AVX-0201-008</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 10 nF </td> <td width="10%"> </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=520L data-key-5=%20% data-key-6=The%20%CAP-AVX-520L-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%520L%20%(10%20%nF)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/520L.pdf target="blank">520L</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1466&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-520L-001_datasheet.pdf" target="blank">CAP-AVX-520L-001</a> </td> <td width="10%"> 0301 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 10 nF </td> <td width="10%"> BB, SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=530L data-key-5=%20% data-key-6=The%20%CAP-AVX-530L-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%530L%20%(100%20%nF)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/530L.pdf target="blank">530L</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1467&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-530L-001_datasheet.pdf" target="blank">CAP-AVX-530L-001</a> </td> <td width="10%"> 0301 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 100 nF </td> <td width="10%"> BB, SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=100A data-key-5=%20% data-key-6=The%20%CAP-AVX-100A-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%100A%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/100A.pdf target="blank">100A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1468&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-100A-001_datasheet.pdf" target="blank">CAP-AVX-100A-001</a> </td> <td width="10%"> Case A </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 100 pF </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=100B data-key-5=%20% data-key-6=The%20%CAP-AVX-100B-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%100B%20%surface%20%mount%20%chip capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/100B.pdf target="blank">100B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1469&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-100B-001_datasheet.pdf" target="blank">CAP-AVX-100B-001</a> </td> <td width="10%"> Case B </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 100 pF </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=200A data-key-5=%20% data-key-6=The%20%CAP-AVX-200A-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%200A%20%surface%20%mount%20%ceramic%20%multi-layer%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%mount%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/200A.pdf target="blank">200A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1470&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-200A-001_datasheet.pdf" target="blank">CAP-AVX-200A-001</a> </td> <td width="10%"> Case A </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 510 – 10000 pF </td> <td width="10%"> BB, SS, PS, OS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=200B data-key-5=%20% data-key-6=The%20%CAP-AVX-200B-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%200B%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/200B.pdf target="blank">200B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1471&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-200B-001_datasheet.pdf" target="blank">CAP-AVX-200B-001</a> </td> <td width="10%"> Case B </td> <td width="10%"> Capacitor </td> <td width="10%"> 9 </td> <td width="10%"> </td> <td width="10%"> 20 – 100 nF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=600F data-key-5=%20% data-key-6=The%20%CAP-AVX-600F-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%AVX%20%600F%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%heights,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%orientation,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/600F.pdf target="blank">600F</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1472&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-600F-001_datasheet.pdf" target="blank">CAP-AVX-600F-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 100 pF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=600L data-key-5=%20% data-key-6=The%20%CAP-AVX-600L-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%600L%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/600L.pdf target="blank">600L</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1473&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-600L-001_datasheet.pdf" target="blank">CAP-AVX-600L-001</a> </td> <td width="10%"> 0301 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 27 pF </td> <td width="10%"> BB, SS, OS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=600S data-key-5=%20% data-key-6=The%20%CAP-AVX-600S-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%600S%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/600S.pdf target="blank">600S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1474&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-600S-001_datasheet.pdf" target="blank">CAP-AVX-600S-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 100 pF </td> <td width="10%"> BB, SS, OS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=700A data-key-5=%20% data-key-6=The%20%CAP-AVX-700A-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%700A%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/700A.pdf target="blank">700A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1475&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-700A-001_datasheet.pdf" target="blank">CAP-AVX-700A-001</a> </td> <td width="10%"> Case A </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 1000 pF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=700B data-key-5=%20% data-key-6=The%20%CAP-AVX-700B-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%700B%20%(0.11”%20%x%20%0.11”)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/700B.pdf target="blank">700B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1476&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-700B-001_datasheet.pdf" target="blank">CAP-AVX-700B-001</a> </td> <td width="10%"> Case B </td> <td width="10%"> Capacitor </td> <td width="10%"> 8 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 5100 pF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=800A data-key-5=%20% data-key-6=The%20%CAP-AVX-800A-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%800A%20%surface%20%mount%20%chip%20%%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/800A.pdf target="blank">800A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1477&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-800A-001_datasheet.pdf" target="blank">CAP-AVX-800A-001</a> </td> <td width="10%"> Case A </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 100 pF </td> <td width="10%"> BB, SS, OS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=800B data-key-5=%20% data-key-6=The%20%CAP-AVX-800B-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%800B%20%(0.11”%20%x%20%0.11”)%20%NP0%20%ceramic%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%mount%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/800B.pdf target="blank">800B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1478&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-800B-001_datasheet.pdf" target="blank">CAP-AVX-800B-001</a> </td> <td width="10%"> Case B </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 1000 pF </td> <td width="10%"> BB, SS, OS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=800R data-key-5=%20% data-key-6=The%20%CAP-AVX-800R-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%800R%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/800R.pdf target="blank">800R</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1479&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-800R-001_datasheet.pdf" target="blank">CAP-AVX-800R-001</a> </td> <td width="10%"> Case R </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 100 pF </td> <td width="10%"> BB, SS, OS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GH01_Maxi data-key-5=%20% data-key-6=The%20%CAP-AVX-GH01-001%20%is%20%a%20%broad-band%20%part-value%20%selectable%20%model%20%for%20%the%20%KAVX%20%GH%20%Maxi%20%series%20%single%20%layer%20%capacitor%20%(SLC)%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kyocera-avx.com).%20%The%20%one%20%port%20%models%20%are%20%for%20%use%20%in%20%shunt%20%(e.g.%20%bypass)%20%applications%20%and%20%includes%20%an%20%adjustable%20%bond-wire%20%model.%20%These%20%models%20%are%20%intended%20%to%20%be%20%mounted%20%with%20%one%20%terminal%20%on%20%the%20%ground%20%plane%20%and%20%the%20%other%20%bonded%20%to%20%a%20%signal%20%line.%20%The%20%adjustable%20%bond-wire%20%features%20%include;%20%distance%20%between%20%bonding%20%points,%20%height%20%of%20%bonding%20%points,%20%wire%20%diameter%20%%20%and%20%peak%20%wire%20%height,%20%as%20%well%20%as%20%bond-wire%20%removal.%20%The%20%initial%20%CAP-AVX-GH01-001%20%is%20%a%20%part%20%value%20%selectable%20%model%20%with%20%three%20%different%20%values%20%(68%20%pF,%20%100%20%pF%20%and%20%330%20%pF).%20%Expansion%20%of%20%this%20%model%20%to%20%cover%20%additional%20%values%20%for%20%this%20%series%20%is%20%envisioned%20%for%20%the%20%future.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/GH01_Maxi.pdf target="blank">GH01_Maxi</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1480&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-GH01-001_datasheet.pdf" target="blank">CAP-AVX-GH01-001</a> </td> <td width="10%"> </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 68, 100 and 330 pF </td> <td width="10%"> BB, BW </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GH04_Maxi data-key-5=%20% data-key-6=The%20%CAP-TCD-CMSK280-001%20%is%20%a%20%broad-band%20%model%20%for%20%a%20%range%20%of%20%values%20%from%20%the%20%Tecdia%20%Class%20%1%20%Type%20%C%20%borderless%20%single%20%layer%20%capacitor%20%(SLC)%20%family%20%(additional%20%information%20%is%20%available%20%at%20%us.tecdia.com).%20%The%20%one%20%port%20%model%20%is%20%for%20%use%20%in%20%shunt%20%(e.g.%20%bypass)%20%applications%20%and%20%includes%20%an%20%adjustable%20%bond-wire%20%model.%20%The%20%model%20%is%20%intended%20%to%20%be%20%mounted%20%with%20%one%20%terminal%20%on%20%the%20%ground%20%plane%20%and%20%the%20%other%20%bonded%20%to%20%a%20%signal%20%line.%20%The%20%adjustable%20%bond-wire%20%features%20%include;%20%distance%20%between%20%bonding%20%points,%20%height%20%of%20%bonding%20%points,%20%wire%20%diameter%20%and%20%peak%20%wire%20%height,%20%as%20%well%20%as%20%bond-wire%20%removal.%20%The%20%initial%20%CAP-TCD-CMSK280-001%20%is%20%a%20%part%20%value%20%selectable%20%model%20%with%20%two%20%different%20%values%20%(1%20%pF%20%and%20%4.7%20%pF).%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/GH04_Maxi.pdf target="blank">GH04_Maxi</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=100&amp;mdl=1481&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-GH04-001_datasheet.pdf" target="blank">CAP-AVX-GH04-001</a> </td> <td width="10%"> </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 1.0 &amp; 4.7 pF </td> <td width="10%"> BB, BW, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GH06_Maxi data-key-5=%20% data-key-6=The%20%CAP-AVX-GH06-001%20%is%20%a%20%broad-band%20%model%20%for%20%the%20%5600%20%pF%20%value%20%of%20%the%20%KAVX%20%GH%20%Maxi%20%series%20%single layer%20%capacitor%20%(SLC)%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kyocera-avx.com).%20%The%20%one%20%port%20%model is%20%for%20%use%20%in%20%shunt%20%(e.g.%20%bypass)%20%applications%20%and%20%includes%20%an%20%adjustable%20%bond-wire%20%model.%20%The%20%model%20%is intended%20%to%20%be%20%mounted%20%with%20%one%20%terminal%20%on%20%the%20%ground%20%plane%20%and%20%the%20%other%20%bonded%20%to%20%a%20%signal%20%line.%20%The adjustable%20%bond-wire%20%features%20%include:%20%distance%20%between%20%bonding%20%points,%20%height%20%of%20%bonding%20%points,%20%wire diameter%20%and%20%peak%20%wire%20%height,%20%as%20%well%20%as%20%bond-wire%20%removal.%20%The%20%initial%20%CAP-AVX-GH06-001%20%is%20%a%20%single%20%part value%20%model%20%(5600%20%pF).%20%Expansion%20%of%20%this%20%model%20%to%20%cover%20%additional%20%values,%20%in%20%a%20%part-value%20%selectable%20%model,%20%is envisioned%20%for%20%the%20%future. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/GH06_Maxi.pdf target="blank">GH06_Maxi</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1482&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-GH06-001_datasheet.pdf" target="blank">CAP-AVX-GH06-001</a> </td> <td width="10%"> </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 5600 pF </td> <td width="10%"> BB, BW </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MAPD-011062 data-key-5=%20% data-key-6=The%20%SPLSP-MAC-MAPD011062-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%MACOM%20%P/N%20%MAPD-011062%20%Full%20%Integrated%20%Power%20%Divider%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%Recommended%20%for%20%2%20%to%20%20%20%GHz%20%applications.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference%20%planes%20%at%20%the%20%outer%20%edges%20%of%20%the%20%package%20%mounting%20%pads. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MAPD-011062.pdf target="blank">MAPD-011062</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1413&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-MAC-MAPD011062-001_datasheet.pdf" target="blank">SPLSP-MAC-MAPD011062-001</a> </td> <td width="10%"> 3mm 16 Lead QFN </td> <td width="10%"> Splitter </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MABA-011125 data-key-5=%20% data-key-6=The%20%XFRSP-MAC-MABA011125-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%MACOM%20%P/N%20%MABA-011125%20%Full%20%Integrated%20%Balun%20%1:2%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%Recommended%20%for%20%2%20%to%20%20%20%GHz%20%applications.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference%20%planes%20%at%20%the%20%outer%20%edges%20%of%20%the%20%package%20%mounting%20%pads. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MABA-011125.pdf target="blank">MABA-011125</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1414&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFRSP-MAC-MABA011125-001_datasheet.pdf" target="blank">XFRSP-MAC-MABA011125-001</a> </td> <td width="10%"> 3mm 16 Lead QFN </td> <td width="10%"> Transformer </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MA4E1317 data-key-5=%20% data-key-6=The%20%SKD-MAC-MA4E1317-001%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MACOM%20%MA4E1317%20%single%20%GaAs%20%flip%20%chip%20%Schottky%20%barrier%20%diode,%20%featuring%20%a%20%1278%20%case%20%style%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%40%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%single%20%and%20%double%20%balanced%20%mixers%20%in%20%PCN%20%transceivers%20%and%20%radios,%20%police%20%radar%20%detectors,%20%and%20%automotive%20%radar%20%detectors. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MA4E1317.pdf target="blank">MA4E1317</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1203&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-MAC-MA4E1317-001_datasheet.pdf" target="blank">SKD-MAC-MA4E1317-001</a> </td> <td width="10%"> 1278 </td> <td width="10%"> Schottky </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, PS, SS, TS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MAPD-011062 data-key-5=%20% data-key-6=The%20%SPLSP-MAC-MAPD011062-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%MACOM%20%P/N%20%MAPD-011062%20%Full%20%Integrated%20%Power%20%Divider%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%Recommended%20%for%20%2%20%to%20%20%20%GHz%20%applications.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference%20%planes%20%at%20%the%20%outer%20%edges%20%of%20%the%20%package%20%mounting%20%pads. data-key-8=PowerDivider data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MAPD-011062.pdf target="blank">MAPD-011062</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1357&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPowerDivider%2FSPLSP-MAC-MAPD011062-001_datasheet.pdf" target="blank">SPLSP-MAC-MAPD011062-001</a> </td> <td width="10%"> QFN </td> <td width="10%"> PowerDivider </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MACP-011088 data-key-5=%20% data-key-6=The%20%CPLSP-MAC-MACP011088-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%MACOM%20%P/N%20%MACP-011088%20%Full%20%Integrated%20%17-dB%20%Bi-directional%20%coupler%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%Recommended%20%for%20%2%20%to%20%18%20%GHz%20%applications.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference%20%planes%20%at%20%the%20%outer%20%edges%20%of%20%the%20%package%20%mounting%20%pads.%20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MACP-011088.pdf target="blank">MACP-011088</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1358&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPLSP-MAC-MACP011088-001_datasheet.pdf" target="blank">CPLSP-MAC-MACP011088-001</a> </td> <td width="10%"> QFN </td> <td width="10%"> Coupler </td> <td width="10%"> 18 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MASWSS0204 data-key-5=%20% data-key-6=The%20%SWT-MAC-MASWSS0204-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%MACOM%20%%20%MASWSS0204%20%%20%PHEMT%20%GaAs%20%IC%20%SPDT%20%switch.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%,%20%interconnect%20%metal%20%thickness%20%and%20%temperature%20%are%20%model%20%input%20%parameters.%20%%20%%20% data-key-8=Switch data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MASWSS0204.pdf target="blank">MASWSS0204</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=600&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSwitch%2FSWT-MAC-MASWSS0204-001_datasheet.pdf" target="blank">SWT-MAC-MASWSS0204-001</a> </td> <td width="10%"> PHEMT GaAs IC SPDT </td> <td width="10%"> Switch </td> <td width="10%"> 7 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MAVR-000230-1141 data-key-5=%20% data-key-6=The%20%VAR_MAC_D323_001%20%is%20%a%20%bias-%20%and%20%temperature-dependent%20%non-linear%20%model%20%for%20%the%20%M/A-COM%20%MAVR000230%20%hyperabrupt%20%tuning%20%varactor%20%diode%20%in%20%a%20%SOD-323%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%16%20%GHz.%20%%20%The%20%model%20%was%20%developed%20%with%20%the%20%surface%20%mount%20%varactor%20%mounted%20%on%20%a%20%20-mil%20%Rogers%20%4003C%20%substrate,%20%however,%20%it%20%is%20%also%20%valid%20%on%20%other%20%substrates%20%where%20%H/Er%20%is%20%approximately%20%5.3%20%(+/-0.5),%20%H%20%is%20%substrate%20%thickness%20%in%20%mils.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%VCOs%20%and%20%voltage%20%tuned%20%filters%20%with%20%low%20%tuning%20%voltage%20%operation%20%up%20%to%20%the%20%2.4%20%GHz%20%band data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MAVR-000230-1141.pdf target="blank">MAVR-000230-1141</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=601&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-MAC-D323-001_datasheet.pdf" target="blank">VAR-MAC-D323-001</a> </td> <td width="10%"> SOD-323 </td> <td width="10%"> Varactor </td> <td width="10%"> 16 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MAVR-001330-1279 data-key-5=%20% data-key-6=The%20%VAR_MAC_SC79_001%20%is%20%a%20%bias-%20%and%20%temperature-dependent%20%non-linear%20%model%20%for%20%the%20%M/A-COM%20%MAVR001330%20%hyperabrupt%20%tuning%20%varactor%20%diode%20%in%20%a%20%SC-79%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%16%20%GHz.%20%%20%The%20%model%20%was%20%developed%20%with%20%the%20%surface%20%mount%20%varactor%20%mounted%20%on%20%a%20%20-mil%20%Rogers%20%4003C%20%substrate,%20%however,%20%it%20%is%20%also%20%valid%20%on%20%other%20%substrates%20%where%20%H/Er%20%is%20%approximately%20%5.3%20%(+/-0.5),%20%H%20%is%20%substrate%20%thickness%20%in%20%mils.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%VCOs%20%and%20%voltage%20%tuned%20%filters%20%with%20%low%20%tuning%20%voltage%20%operation.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MAVR-001330-1279.pdf target="blank">MAVR-001330-1279</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=602&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-MAC-SC79-001_datasheet.pdf" target="blank">VAR-MAC-SC79-001</a> </td> <td width="10%"> SC-79 </td> <td width="10%"> Varactor </td> <td width="10%"> 16 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MSD710 data-key-5=%20% data-key-6=The%20%SRD-MAC-E25-001is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MACOM%20%Step%20%Recovery%20%Diode%20%MSD710,%20%featuring%20%a%20%E25%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%The%20%model%20%was%20%extracted%20%using%20%a%20%microstrip%20%test%20%fixtures%20%on%20%multiple%20%FR-4%20%substrates%20%(5-,%20%14-,%20%and%20%59-mil%20%thick).%20%The%20%junction%20%capacitance%20%is%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%model%20%has%20%the%20%capability%20%of%20%tracking%20%the%20%step-recovery%20%response%20%of%20%the%20%diode%20%as%20%a%20%function%20%of%20%bias.%20%The%20%model%20%has%20%been%20%validated%20%from%20%DC%20%to%20%6%20%GHz.%20% data-key-8=StepRecoveryDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MSD710.pdf target="blank">MSD710</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=576&amp;returnUrl=%2Fmodels%2Fdatasheet%2FStepRecoveryDiode%2FSRD-MAC-E25-001_datasheet.pdf" target="blank">SRD-MAC-E25-001</a> </td> <td width="10%"> E25 </td> <td width="10%"> StepRecoveryDiode </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MA4P504-132 data-key-5=%20% data-key-6=The%20%PIN-MAC-MA4P-001%20%is%20%a%20%bias%20%dependent%20%nonlinear%20%model%20%for%20%the%20%M/A%20%diode.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%applications%20%operating%20%from%20%DC%20%to%20%20GHz.%20%%20%Users%20%specify%20%temperature%20%as%20%an%20%input%20%parameter.%20%Both%20%junction%20%capacitance%20%and%20%bias. data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MA4P504-132.pdf target="blank">MA4P504-132</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=806&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-MAC-MA4P-001_datasheet.pdf" target="blank">PIN-MAC-MA4P-001</a> </td> <td width="10%"> Chip </td> <td width="10%"> PINDiode </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, TS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MAAL-010704 data-key-5=%20% data-key-6=The%20%AMPXP-MAC-MAAL010704-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%MACOM%20%MAAL-010704%20%single stage%20%MMIC%20%low%20%noise%20%amplifier%20%in%20%a%20%SOT-363%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.1-3.5GHz%20%applications and%20%offers%20%an%20%excellent%20%dynamic%20%range,%20%and%20%requires%20%no%20%external%20%matching.%20%A%20%combination%20%of%20%S-Parameter%20%with noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MAAL-010704.pdf target="blank">MAAL-010704</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=929&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MAC-MAAL010704-001_datasheet.pdf" target="blank">AMPXP-MAC-MAAL010704-001</a> </td> <td width="10%"> SOT-363 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 18.0 </td> <td width="10%"> </td> <td width="10%"> XP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=2690-1011 data-key-5=%20% data-key-6=The%20%LIM-MAC-26901011-001%20%is%20%a%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MACOM%20%P/N%20%2690-1011%20%SMAconnectorized%20%PIN%20%limiter%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%The%20%model%20%is%20%for%20%use%20%withcoaxial%20%applications.%20%Ambient%20%temperature%20%is%20%a%20%user%20%model%20%input%20%parameter data-key-8=Limiter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/2690-1011.pdf target="blank">2690-1011</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1014&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLimiter%2FLIM-MAC-26901011-001_datasheet.pdf" target="blank">LIM-MAC-26901011-001</a> </td> <td width="10%"> Package </td> <td width="10%"> Limiter </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMV20413 data-key-5=%20% data-key-6=The%20%VAR-MAC-SMV20413-001%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MA-COM%20%P/N SMV20413%20%varactor%20%diode,%20%featuring%20%a%20%CHIP%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com). Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%temperature%20%are%20%model input%20%parameters.%20%Junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%diode%20%is designed%20%for%20%ISM%20%applications%20%in%20%the%20%frequency%20%range%20%DC%20%to%20%6%20%GHz. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/SMV20413.pdf target="blank">SMV20413</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1027&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-MAC-SMV20413-001_datasheet.pdf" target="blank">VAR-MAC-SMV20413-001</a> </td> <td width="10%"> SC-79 </td> <td width="10%"> Varactor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS, SS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NPT1012B data-key-5=%20% data-key-6=HMT-MAC-NPT1012B%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%MACOM%20%NPT1012%20%high%20%power%20%GaN%20%HEMT%20%device%20%based%20%on%20%the%20%extraction%20%of%20%Angelov%20%model.%20%The%20%model%20%is%20%intended%20%to%20%be%20%used%20%in%20%commercial%20%and%20%industrial%20%applications.%20%The%20%model%20%is%20%verified%20%through%20%loadpull%20%at%20%250%20%and%20%900%20%MHz.%20%%20%%20% data-key-8=GaN HEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/NPT1012B.pdf target="blank">NPT1012B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1166&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaN_HEMT%2FHMT-MAC-NPT1012B_datasheet.pdf" target="blank">HMT-MAC-NPT1012B</a> </td> <td width="10%"> Package </td> <td width="10%"> GaN HEMT </td> <td width="10%"> 4 </td> <td width="10%"> 43 dBm </td> <td width="10%"> </td> <td width="10%"> NL, TS, LP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NPTB00004A data-key-5=%20% data-key-6=HMT-MAC-NPTB00004-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%MACOM%20%NPTB00004%20%RF%20%power%20%GaN%20%HEMT%20%device%20%based%20%on%20%the%20%extraction%20%of%20%Angelov%20%model.%20%The%20%model%20%is%20%intended%20%to%20%be%20%used%20%in%20%broadband%20%commercial%20%and%20%industrial%20%applications.%20%The%20%model%20%is%20%verified%20%through%20%loadpull%20%at%20%2.3%20%GHz.%20%%20%%20% data-key-8=GaN HEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/NPTB00004A.pdf target="blank">NPTB00004A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1167&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaN_HEMT%2FHMT-MAC-NPTB00004A_datasheet.pdf" target="blank">HMT-MAC-NPTB00004A</a> </td> <td width="10%"> Package </td> <td width="10%"> GaN HEMT </td> <td width="10%"> 6 </td> <td width="10%"> 35 dBm </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NPT1012B data-key-5=%20% data-key-6=HMTXP-MAC-NPT1012-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%MACOM%20%NPT1012B%20%high%20%power%20%GaN%20%HEMT%20%device.%20%The%20%model%20%is%20%based%20%on%20%X-parameter%20%modeling%20%technology%20%and%20%extracted%20%from%20%its%20%compact%20%version%20%available%20%from%20%Modleithics%20%NLT%20%library.%20%%20%%20%The%20%extraction%20%condition%20%is%20%given%20%above.%20%cations. data-key-8=GaN HEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/NPT1012B.pdf target="blank">NPT1012B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1168&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaN_HEMT%2FHMTXP-MAC-NPT1012B_datasheet.pdf" target="blank">HMTXP-MAC-NPT1012B</a> </td> <td width="10%"> Package </td> <td width="10%"> GaN HEMT </td> <td width="10%"> 8 </td> <td width="10%"> 43 dBm </td> <td width="10%"> </td> <td width="10%"> NL, LP </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MA4PH235-1072 data-key-5=%20% data-key-6=The%20%PIN-MAC-CS1072-001%20%is%20%a%20%substrate%20%scalable%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%M/ACOM%20%PIN%20%diode%20%in%20%a%20%Case1072%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias. data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MA4PH235-1072.pdf target="blank">MA4PH235-1072</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=475&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-MAC-CS1072-001_datasheet.pdf" target="blank">PIN-MAC-CS1072-001</a> </td> <td width="10%"> 1072 </td> <td width="10%"> PINDiode </td> <td width="10%"> 6 </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MMP7065-11 data-key-5=%20% data-key-6=The%20%PIN-MAC-MMP-001%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MACOM%20%MMP7605-11%20%PIN%20%diode.%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%The%20%model%20%is%20%designed%20%for%20%uses%20%with%20%applications%20%operating%20%from%20%0.5%20%to%20%20%20%GHz.%20%Users%20%specify%20%temperature%20%as%20%an%20%input%20%parameter.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%limiter%20%applications.%20%Test%20%fixture%20%effects,%20%including%20%bond-wires,%20%were%20%de-embedded%20%from%20%the%20%measurement%20%data%20%prior%20%to%20%model%20%extraction%20%and%20%are%20%not%20%included%20%in%20%the%20%model.%20% data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MMP7065-11.pdf target="blank">MMP7065-11</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=479&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-MAC-MMP-001_datasheet.pdf" target="blank">PIN-MAC-MMP-001</a> </td> <td width="10%"> Chip </td> <td width="10%"> PINDiode </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MMP7065-11 data-key-5=%20% data-key-6=The%20%PIN-MAC-MMP-101is%20%a%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MACOM%20%MMP7605-11%20%PIN%20%diode%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%The%20%model%20%is%20%intended%20%for%20%uses%20%with%20%applications%20%operating%20%from%20%0.5%20%to%20%20%20%GHz.%20%Users%20%specify%20%temperature%20%as%20%an%20%input%20%parameter.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%limiter%20%applications.%20%Test%20%fixture%20%effects,%20%including%20%bond-wires,%20%were%20%de-embedded%20%from%20%the%20%measurement%20%data%20%prior%20%to%20%model%20%extraction%20%and%20%are%20%not%20%included%20%in%20%the%20%model. data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MMP7065-11.pdf target="blank">MMP7065-11</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=480&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-MAC-MMP-101_datasheet.pdf" target="blank">PIN-MAC-MMP-101</a> </td> <td width="10%"> Chip </td> <td width="10%"> PINDiode </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLP7100 data-key-5=%20% data-key-6=The%20%PIN-MAC-VARP-001%20%is%20%a%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MACOM%20%MLP7100%20%single%20%configuration%20%PIN%20%diode%20%(additional%20%information%20%is%20%available%20%at%20%(www.macom.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%temperature%20%and%20%package%20%style%20%(chip%20%or%20%CS19-1%20%package)%20%as%20%input%20%parameters.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%limiter%20%applications.%20%For%20%the%20%chip%20%configuration,%20%test%20%fixture%20%effects,%20%including%20%bondwires,%20%were%20%de-embedded%20%from%20%the%20%measurement%20%data%20%prior%20%to%20%model%20%extraction%20%and%20%are%20%not%20%included%20%in%20%the%20%model. data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MLP7100.pdf target="blank">MLP7100</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=481&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-MAC-VARP-001_datasheet.pdf" target="blank">PIN-MAC-VARP-001</a> </td> <td width="10%"> Chip or CS19-1 </td> <td width="10%"> PINDiode </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLP7110 data-key-5=%20% data-key-6=The%20%PIN-MAC-VARP-002%20%is%20%a%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MACOM%20%MLP7110%20%single%20%configuration%20%PIN%20%diode,%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%temperature%20%and%20%package%20%style%20%(chip%20%or%20%CS19-1%20%package)%20%as%20%input%20%parameters.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%limiter%20%applications.%20%For%20%the%20%chip%20%configuration,%20%test%20%fixture%20%effects,%20%including%20%bondwires,%20%were%20%de-embedded%20%from%20%the%20%measurement%20%data%20%prior%20%to%20%model%20%extraction%20%and%20%are%20%not%20%included%20%in%20%the%20%model. data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MLP7110.pdf target="blank">MLP7110</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=482&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-MAC-VARP-002_datasheet.pdf" target="blank">PIN-MAC-VARP-002</a> </td> <td width="10%"> Chip or CS19-1 </td> <td width="10%"> PINDiode </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLP7120 data-key-5=%20% data-key-6=The%20%PIN-MAC-VARP-003%20%is%20%a%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MACOM%20%MLP7120%20%single%20%configuration%20%PIN%20%diode%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%temperature%20%and%20%package%20%style%20%(chip%20%or%20%CS19-1%20%package)%20%as%20%input%20%parameters.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%limiter%20%applications.%20%For%20%the%20%chip%20%configuration,%20%test%20%fixture%20%effects,%20%including%20%bond-wires,%20%were%20%de-embedded%20%from%20%the%20%measurement%20%data%20%prior%20%to%20%model%20%extraction%20%and%20%are%20%not%20%included%20%in%20%the%20%model. data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MLP7120.pdf target="blank">MLP7120</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=483&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-MAC-VARP-003_datasheet.pdf" target="blank">PIN-MAC-VARP-003</a> </td> <td width="10%"> Chip or CS19-1 </td> <td width="10%"> PINDiode </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLP7101 data-key-5=%20% data-key-6=The%20%PIN-MAC-VARP-004%20%is%20%a%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MACOM%20%MLP7101%20%single%20%configuration%20%PIN%20%diode%20%(additional%20%information%20%is%20%available%20%at%20%www.macom.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%temperature%20%as%20%input%20%parameter.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%limiter%20%applications.%20%Test%20%fixture%20%effects,%20%including%20%bond-wires,%20%were%20%de-embedded%20%from%20%the%20%measurement%20%data%20%prior%20%to%20%model%20%extraction%20%and%20%are%20%not%20%included%20%in%20%the%20%model. data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM <td width="10%"> <a href=/models/Vendor/MACOM/MLP7101.pdf target="blank">MLP7101</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=484&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-MAC-VARP-004_datasheet.pdf" target="blank">PIN-MAC-VARP-004</a> </td> <td width="10%"> Chip </td> <td width="10%"> PINDiode </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MM1-1453HSM data-key-5=%20% data-key-6=The%20%MIX-MAR-MM11453HSM-001%20%is%20%a%20%behavioral%20%model%20%for%20%the%20%Marki%20%Microwave%20%MM1-1453HSM%20%surface%20%mount%20%mixer%20%(additional%20%information%20%is%20%available%20%at%20%www.markimicrowave.com/).%20%The%20%model%20%is%20%based%20%on%20%manufacturer’s%20%measurement%20%datasets%20%and%20%suitable%20%for%20%use%20%with%20%microstrip%20%applications. data-key-8=Mixer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MarkiMicrowave <td width="10%"> <a href=/models/Vendor/MarkiMicrowave/MM1-1453HSM.pdf target="blank">MM1-1453HSM</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=115&amp;mdl=1487&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMixer%2FMIX-MAR-MM11453HSM-001_datasheet.pdf" target="blank">MIX-MAR-MM11453HSM-001</a> </td> <td width="10%"> MMIC </td> <td width="10%"> Mixer </td> <td width="10%"> 60 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MM2-0530HSM data-key-5=%20% data-key-6=The%20%MIX-MAR-MM20530HSM-001%20%is%20%a%20%behavioral%20%model%20%for%20%the%20%Marki%20%Microwave%20%MM2-0530HSM%20%surface%20%mount%20%mixer%20%(additional%20%information%20%is%20%available%20%at%20%www.markimicrowave.com/).%20%The%20%model%20%is%20%based%20%on%20%manufacturer’s%20%measurement%20%datasets%20%and%20%suitable%20%for%20%use%20%with%20%microstrip%20%applications.%20% data-key-8=Mixer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MarkiMicrowave <td width="10%"> <a href=/models/Vendor/MarkiMicrowave/MM2-0530HSM.pdf target="blank">MM2-0530HSM</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=115&amp;mdl=1488&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMixer%2FMIX-MAR-MM20530HSM-001_datasheet.pdf" target="blank">MIX-MAR-MM20530HSM-001</a> </td> <td width="10%"> MMIC </td> <td width="10%"> Mixer </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MM1-0626HSM data-key-5=%20% data-key-6=The%20%MIX-MAR-MM10626HSM-001%20%is%20%a%20%behavioral%20%model%20%for%20%the%20%Marki%20%Microwave%20%MM1-0626HSM%20%surface%20%mount%20%mixer%20%(additional%20%information%20%is%20%available%20%at%20%www.markimicrowave.com/).%20%The%20%model%20%is%20%based%20%on%20%manufacturer’s%20%measurement%20%datasets%20%and%20%suitable%20%for%20%use%20%with%20%microstrip%20%applications.%20% data-key-8=Mixer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MarkiMicrowave <td width="10%"> <a href=/models/Vendor/MarkiMicrowave/MM1-0626HSM.pdf target="blank">MM1-0626HSM</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=115&amp;mdl=1434&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMixer%2FMIX-MAR-MM10626HSM-001_datasheet.pdf" target="blank">MIX-MAR-MM10626HSM-001</a> </td> <td width="10%"> MMIC </td> <td width="10%"> Mixer </td> <td width="10%"> 27 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MAX2371 data-key-5=%20% data-key-6=The%20%AMP-MAX-2371-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Maxim%20%2371%20%low%20%noise%20%wideband%20%amplifier.%20%The%20%model%20%is%20%designed%20%to%20%predict%20%the%20%circuit%20%performance%20%as%20%a%20%function%20%of%20%load%20%and%20%source%20%reflection%20%coefficients.%20%%20% data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Maxim <td width="10%"> <a href=/models/Vendor/Maxim/MAX2371.pdf target="blank">MAX2371</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=18&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMP-MAX-2371-001_datasheet.pdf" target="blank">AMP-MAX-2371-001</a> </td> <td width="10%"> Ceramic </td> <td width="10%"> Amplifier </td> <td width="10%"> 2.5 </td> <td width="10%"> -3 </td> <td width="10%"> </td> <td width="10%"> NL, LP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MAX2373 data-key-5=%20% data-key-6=The%20%AMP-MAX-2373-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Maxim%20%2373%20%low%20%noise%20%wideband%20%amplifier.%20%The%20%model%20%is%20%designed%20%to%20%predict%20%the%20%linear%20%and%20%non-linear%20%circuit%20%performance%20%as%20%a%20%function%20%of%20%load%20%and%20%source%20%reflection%20%coefficients. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Maxim <td width="10%"> <a href=/models/Vendor/Maxim/MAX2373.pdf target="blank">MAX2373</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=19&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMP-MAX-2373-001_datasheet.pdf" target="blank">AMP-MAX-2373-001</a> </td> <td width="10%"> Ceramic </td> <td width="10%"> Amplifier </td> <td width="10%"> 2.5 </td> <td width="10%"> -3 </td> <td width="10%"> </td> <td width="10%"> NL, LP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MAX2681 data-key-5=%20% data-key-6=The%20%MIX-MAX-2681-001%20%is%20%a%20%behavioral%20%model%20%for%20%MAXIM%20%MAX2681%20%low-noise%20%SiGe%20%downconverter%20%mixers.%20%%20%It%20%characterizes%20%the%20%mixer%20%performance%20%within%20%0.4GHz%20%to%20%2.5%20%GHz.%20%Constant%20%IF%20%conversion%20%loss%20%and%20%conversion%20%loss%20%compression%20%performance%20%is%20%predicted%20%by%20%the%20%model.%20%The%20%reflection%20%coefficients%20%of%20%all%20%3%20%ports%20%are%20%predicted.%20%The%20%input%20%parameters%20%are%20%RF%20%and%20%LO%20%frequencies.%20%%20% data-key-8=Mixer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Maxim <td width="10%"> <a href=/models/Vendor/Maxim/MAX2681.pdf target="blank">MAX2681</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=443&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMixer%2FMIX-MAX-2681-001_datasheet.pdf" target="blank">MIX-MAX-2681-001</a> </td> <td width="10%"> </td> <td width="10%"> Mixer </td> <td width="10%"> 2.5 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SD1495-03 data-key-5=%20% data-key-6=The%20%BJT_MSI_SD1495%20%is%20%a%20%Gummel-Poon%20%model%20%for%20%the%20%Microsemi%20%SD1495-03%20%NPN%20%BJT%20%transistor.%20%The%20%model%20%is%20%developed%20%for%20%common-base%20%configuration%20%and%20%intended%20%for%20%use%20%with%20%microstrip%20%applications.%20% data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Microsemi <td width="10%"> <a href=/models/Vendor/Microsemi/SD1495-03.pdf target="blank">SD1495-03</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=56&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-MSI-SD1495_datasheet.pdf" target="blank">BJT-MSI-SD1495</a> </td> <td width="10%"> M142 </td> <td width="10%"> NPNBJT </td> <td width="10%"> 1.5 </td> <td width="10%"> 45 dBm </td> <td width="10%"> </td> <td width="10%"> NL, LP </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=UPP9401 data-key-5=%20% data-key-6=The%20%PIN-MIC-PMITE-001%20%is%20%a%20%substrate%20%scalable%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Microsemi%20%UPP9401%20%single%20%PIN%20%diode%20%in%20%a%20%powermite%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%4%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%two-way%20%radio%20%antenna%20%switch%20%applications.%20% data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Microsemi <td width="10%"> <a href=/models/Vendor/Microsemi/UPP9401.pdf target="blank">UPP9401</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=477&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-MIC-PMITE-001_datasheet.pdf" target="blank">PIN-MIC-PMITE-001</a> </td> <td width="10%"> Powermite </td> <td width="10%"> PINDiode </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GC1500879 data-key-5=%20% data-key-6=The%20%VAR-MIC-GC1500879-001%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%Microsemi%20%P/N%20%15008-79%20%varactor%20%diode%20%(additional%20%information%20%is%20%available%20%at%20%www.microsemi.com).%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%temperature%20%are%20%model%20%input%20%parameters.%20%Junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%diode%20%is%20%a%20%frequency-linear%20%tuning%20%varactor%20%designed%20%for%20%use%20%in%20%VCO’s,%20%filters,%20%amplifiers,%20%and%20%modulators%20%for%20%wide%20%band%20%tuning%20%through%20%Ku%20%band.. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Microsemi <td width="10%"> <a href=/models/Vendor/Microsemi/GC1500879.pdf target="blank">GC1500879</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1368&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-MIC-GC1500879-001_datasheet.pdf" target="blank">VAR-MIC-GC1500879-001</a> </td> <td width="10%"> Chip </td> <td width="10%"> Varactor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, SS,TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MP6250-P2715 data-key-5=%20% data-key-6=The%20%PIN-MDT-FLCH-001%20%is%20%a%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%MDT%20%MP6250-P2715%20%GaAs%20%flip%20%chip%20%PIN%20%diode.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%30%20%GHz.%20%Junction%20%%20%%20%%20%%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%microwave%20%and%20%millimeter-wave%20%switches,%20%attenuators%20%and%20%phase%20%shifters.%20%It%20%features%20%low%20%zero%20%bias%20%capacitance%20%and%20%low%20%series%20%resistance,%20%fast%20%switching%20%speed%20%and%20%the%20%ability%20%to%20%be%20%driven%20%directly%20%by%20%low%20%cost%20%TTL%20%drivers.%20% data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MDT <td width="10%"> <a href=/models/Vendor/MDT/MP6250-P2715.pdf target="blank">MP6250-P2715</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=476&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-MDT-FLCH-001_datasheet.pdf" target="blank">PIN-MDT-FLCH-001</a> </td> <td width="10%"> 79A </td> <td width="10%"> PINDiode </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MWT-1 data-key-5=%20% data-key-6=The%20%MES-MWT-MWT-1%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%MicroWave%20%GaAs%20%MESFET%20%chip%20%based%20%on%20%the%20%extraction%20%of%20%EEHEMT%20%model.%20%The%20%device%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%26%20%GHz.%20%The%20%model%20%is%20%designed%20%for%20%use%20%for%20%MWT-1%20%devices%20%with%20%Idss%20%values%20%between%20%140%20%and%20%170%20%mA.%20% data-key-8=MESFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Microwave_Technology <td width="10%"> <a href=/models/Vendor/Microwave_Technology/MWT-1.pdf target="blank">MWT-1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=101&amp;mdl=439&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMESFET%2FMES-MWT-MWT-1-High-Idss_datasheet.pdf" target="blank">MES-MWT-MWT-1-High-Idss</a> </td> <td width="10%"> 79A </td> <td width="10%"> MESFET </td> <td width="10%"> 26 </td> <td width="10%"> 23.0 </td> <td width="10%"> </td> <td width="10%"> NL, LP, TS, IM, NP, BW </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MWT-1 data-key-5=%20% data-key-6=The%20%MES-MWT-MWT-1-low_Idss%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%MicroWave%20%GaAs%20%MESFET%20%chip%20%based%20%on%20%the%20%extraction%20%of%20%EEHEMT%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%26%20%GHz.%20%The%20%device%20%is%20%designed%20%for%20%use%20%in%20%excellent%20%feed%20%back%20%amplifier%20%%20%application%20%and%20%other%20%commercial%20%systems.%20%This%20%“Low%20%Idss”%20%version%20%is%20%intended%20%to%20%represent%20%MWT-1%20%devices%20%with%20%Idss%20%values%20%between%20%80%20%and%20%139mA. data-key-8=MESFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Microwave_Technology <td width="10%"> <a href=/models/Vendor/Microwave_Technology/MWT-1.pdf target="blank">MWT-1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=101&amp;mdl=440&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMESFET%2FMES-MWT-MWT-1-Low-Idss_datasheet.pdf" target="blank">MES-MWT-MWT-1-Low-Idss</a> </td> <td width="10%"> 79A </td> <td width="10%"> MESFET </td> <td width="10%"> 26 </td> <td width="10%"> 16.0 </td> <td width="10%"> </td> <td width="10%"> NL, LP, TS, IM, NP, BW </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MwT-7 data-key-5=%20% data-key-6=The%20%MESFET%20%MES-MWT-MWT7%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%MWT%20%MWT-7%20%MESFET%20%in%20%a%20%chip%20%package%20%based%20%on%20%the%20%extraction%20%of%20%%20%curtice%20%cubic%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%40%20%GHz.%20%%20%The%20%model%20%is%20%designed%20%to%20%work%20%best%20%for%20%non-linear%20%simulations,%20%and%20%the%20%small-signal%20%noise%20%model%20%will%20%be%20%most%20%useful%20%for%20%low%20%and%20%medium%20%noise%20%amplifier%20%design. data-key-8=MESFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Microwave_Technology <td width="10%"> <a href=/models/Vendor/Microwave_Technology/MwT-7.pdf target="blank">MwT-7</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=101&amp;mdl=441&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMESFET%2FMES-MWT-MWT7_datasheet.pdf" target="blank">MES-MWT-MWT7</a> </td> <td width="10%"> 79A </td> <td width="10%"> MESFET </td> <td width="10%"> 40 </td> <td width="10%"> 20.0 </td> <td width="10%"> </td> <td width="10%"> NL, NP, FL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CF003-01 data-key-5=%20% data-key-6=The%20%MES-MIMIX-CF003-01%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%MIMIX%20%CF003-01%20%GaAs%20%MESFET%20%chip%20%based%20%on%20%the%20%extraction%20%of%20%EEHEMT%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%26%20%GHz.%20%The%20%device%20%is%20%designed%20%for%20%use%20%in%20%wide%20%and%20%narrow%20%bandwidth%20%amplifier%20%application%20%and%20%other%20%commercial%20%systems.%20% data-key-8=MESFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Mimix <td width="10%"> <a href=/models/Vendor/Mimix/CF003-01.pdf target="blank">CF003-01</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=438&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMESFET%2FMES-MIX-CF003-01_datasheet.pdf" target="blank">MES-MIX-CF003-01</a> </td> <td width="10%"> 79A </td> <td width="10%"> MESFET </td> <td width="10%"> 26 </td> <td width="10%"> 22.0 </td> <td width="10%"> </td> <td width="10%"> NL, LP, TS, IM, NP, BW </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=JR1BDplus data-key-5=%20% data-key-6=The%20%CPLSP-MCL-JR1BDPlus-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%P/N%20%JR1BD+%20%Bi-directional%20%coupler%20%die%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference%20%planes%20%at%20%the%20%center%20%of%20%the%20%bonding%20%pads%20%on%20%the%20%die. %20% data-key-8=Coupler data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/JR1BDplus.pdf target="blank">JR1BDplus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1317&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCoupler%2FCPLSP-MCL-JR1BDPlus-001_datasheet.pdf" target="blank">CPLSP-MCL-JR1BDPlus-001</a> </td> <td width="10%"> GG60 </td> <td width="10%"> Coupler </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EP2KADGplus data-key-5=%20% data-key-6=The%20%SPLSP-MCL-EP2KADGPlus-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%EP2KA-DG+%20%MMIC%20%2-way%20%0&#176;%20%splitter/combiner%20%GaAs%20%Die%20%designed%20%for%20%wideband%20%operation%20%from%20%10%20%GHz%20%to%20%43.5%20%GHz%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%with%20%reference%20%planes%20%at%20%the%20%die’s%20%center%20%of%20%the%20%bonding%20%patterns. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/EP2KADGplus.pdf target="blank">EP2KADGplus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1318&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-MCL-EP2KADGPlus-001_datasheet.pdf" target="blank">SPLSP-MCL-EP2KADGPlus-001</a> </td> <td width="10%"> Die </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TAV2-501plus data-key-5=%20% data-key-6=The%20%HMT-MCL-TAV2501-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%TAV2-501+%20%package%20%E-pHEMT%20%transistor%20%with%20%MC1631-1%20%case%20%style%20%(additional%20%product%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%substrate%20%and%20%temperature%20%scalable%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%large-signal%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%and%20%GCPW%20%printed%20%circuit%20%boards.%20%This%20%product%20%is%20%recommended%20%for%20%its%20%low%20%noise%20%and%20%IP3%20%characteristics%20%making%20%it%20%ideal%20%for%20%sensitive%20%receivers%20%in%20%communication%20%systems%20%in%20%the%20%0.4%20%to%20%3.9%20%GHz%20%frequency%20%range. data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/TAV2-501plus.pdf target="blank">TAV2-501plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1397&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-MCL-TAV2501-001_datasheet.pdf" target="blank">HMT-MCL-TAV2501-001</a> </td> <td width="10%"> Package </td> <td width="10%"> PHEMT </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, NP, TS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-1000plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN1000-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-1000+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-1000plus.pdf target="blank">LFCN-1000plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=417&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN1000-001_datasheet.pdf" target="blank">LPF-MCL-LFCN1000-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-1200plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN1200-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-1200+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-1200plus.pdf target="blank">LFCN-1200plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=418&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN1200-001_datasheet.pdf" target="blank">LPF-MCL-LFCN1200-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-120plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN120-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-120+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-120plus.pdf target="blank">LFCN-120plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=419&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN120-001_datasheet.pdf" target="blank">LPF-MCL-LFCN120-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-1200Dplus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN1200D-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-1200D+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-1200Dplus.pdf target="blank">LFCN-1200Dplus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=420&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN1200D-001_datasheet.pdf" target="blank">LPF-MCL-LFCN1200D-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-1700plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN1700-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-1700+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-1700plus.pdf target="blank">LFCN-1700plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=421&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN1700-001_datasheet.pdf" target="blank">LPF-MCL-LFCN1700-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-1800plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN1800-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-1800+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-1800plus.pdf target="blank">LFCN-1800plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=422&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN1800-001_datasheet.pdf" target="blank">LPF-MCL-LFCN1800-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-1800Dplus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN1800D-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-1800D+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-1800Dplus.pdf target="blank">LFCN-1800Dplus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=423&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN1800D-001_datasheet.pdf" target="blank">LPF-MCL-LFCN1800D-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-2250plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN2250-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-2250+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-2250plus.pdf target="blank">LFCN-2250plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=424&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN2250-001_datasheet.pdf" target="blank">LPF-MCL-LFCN2250-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-3000plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN3000-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-3000+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-3000plus.pdf target="blank">LFCN-3000plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=425&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN3000-001_datasheet.pdf" target="blank">LPF-MCL-LFCN3000-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-3800plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN3800-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-3800+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-3800plus.pdf target="blank">LFCN-3800plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=426&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN3800-001_datasheet.pdf" target="blank">LPF-MCL-LFCN3800-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 13 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-400plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN400-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-400+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-400plus.pdf target="blank">LFCN-400plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=427&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN400-001_datasheet.pdf" target="blank">LPF-MCL-LFCN400-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-4400plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN4400-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-4400+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-4400plus.pdf target="blank">LFCN-4400plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=428&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN4400-001_datasheet.pdf" target="blank">LPF-MCL-LFCN4400-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 13 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-490plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN490-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-490+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-490plus.pdf target="blank">LFCN-490plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=429&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN490-001_datasheet.pdf" target="blank">LPF-MCL-LFCN490-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-630plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN630-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-630+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-630plus.pdf target="blank">LFCN-630plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=430&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN630-001_datasheet.pdf" target="blank">LPF-MCL-LFCN630-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-80plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN80-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%LFCN-80+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-80plus.pdf target="blank">LFCN-80plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=431&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN80-001_datasheet.pdf" target="blank">LPF-MCL-LFCN80-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RCAT data-key-5=%20% data-key-6=The%20%ATT-MCL-RCAT-001-S%20%model%20%for%20%the%20%Mini-Circuits%20%RCAT%20%attenuators%20%is%20%developed%20%for%20%use%20%in%20%broadband%20%applications using%20%a%20%multi-via%20%ground%20%plane%20%configuration%20%land%20%pattern.%20%An%20%alternate%20%model,%20%ATT-MCL-RCAT-002- S,%20%for%20%the%20%same%20%family%20%of%20%fixed-value%20%attenuators%20%is%20%better%20%suited%20%for%20%use%20%in%20%space-conservative%20%microstrip%20%footprints with%20%a%20%simple%20%grounding%20%approach%20%and%20%recommended%20%for%20%lower%20%frequency%20%applications. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/RCAT.pdf target="blank">RCAT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=44&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-MCL-RCAT-001-S_datasheet.pdf" target="blank">ATT-MCL-RCAT-001-S</a> </td> <td width="10%"> LZ1737 </td> <td width="10%"> Attenuator </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0-30 dB </td> <td width="10%"> VS, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RCAT_ data-key-5=%20% data-key-6=The%20%ATT-MCL-RCAT-002-S%20%model%20%for%20%the%20%Mini-Circuits%20%RCAT%20%attenuators%20%is%20%developed%20%for%20%use%20%with%20%spaceconservative microstrip%20%footprints%20%using%20%a%20%simple%20%grounding%20%approach%20%and%20%recommended%20%for%20%lower%20%frequency applications.%20%An%20%alternate%20%model,%20%ATT-MCL-RCAT-001-S,%20%for%20%the%20%same%20%family%20%of%20%fixed-value%20%attenuators%20%is%20%available for%20%higher%20%frequency%20%applications%20%using%20%a%20%larger%20%multi-via%20%ground%20%plane%20%configuration. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/RCAT_.pdf target="blank">RCAT_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=45&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-MCL-RCAT-002-S_datasheet.pdf" target="blank">ATT-MCL-RCAT-002-S</a> </td> <td width="10%"> LZ1737 </td> <td width="10%"> Attenuator </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 0-30 dB </td> <td width="10%"> VS, SS, PS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=YAT data-key-5=%20% data-key-6=The%20%ATT-MCL-YAT-001-S%20%model%20%for%20%the%20%Mini-Circuits%20%YAT%20%attenuators%20%is%20%developed%20%for%20%use%20%in%20%broadband%20%applications using%20%a%20%multi-via%20%ground%20%plane%20%configuration%20%land%20%pattern.%20%An%20%alternate%20%model,%20%ATT-MCL-YAT-002-S,%20%for the%20%same%20%family%20%of%20%fixed-value%20%attenuators%20%is%20%better%20%suited%20%for%20%use%20%in%20%space-conservative%20%microstrip%20%footprints with%20%a%20%simple%20%grounding%20%approach%20%and%20%recommended%20%for%20%lower%20%frequency%20%applications. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/YAT.pdf target="blank">YAT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=46&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-MCL-YAT-001-S_datasheet.pdf" target="blank">ATT-MCL-YAT-001-S</a> </td> <td width="10%"> MC1630 </td> <td width="10%"> Attenuator </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0-30 dB </td> <td width="10%"> VS, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=YAT_ data-key-5=%20% data-key-6=The%20%ATT-MCL-YAT-002-S%20%model%20%for%20%the%20%Mini-Circuits%20%YAT%20%attenuators%20%is%20%developed%20%for%20%use%20%with%20%spaceconservative microstrip%20%footprints%20%using%20%a%20%simple%20%grounding%20%approach%20%and%20%recommended%20%for%20%lower%20%frequency applications.%20%An%20%alternate%20%model,%20%ATT-MCL-YAT-001-S,%20%for%20%the%20%same%20%family%20%of%20%fixed-value%20%attenuators%20%is%20%available for%20%higher%20%frequency%20%applications%20%using%20%a%20%larger%20%multi-via%20%ground%20%plane%20%configuration. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/YAT_.pdf target="blank">YAT_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=47&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-MCL-YAT-002-S_datasheet.pdf" target="blank">ATT-MCL-YAT-002-S</a> </td> <td width="10%"> MC1630 </td> <td width="10%"> Attenuator </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 0-30 dB </td> <td width="10%"> VS, SS, PS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GVA-62plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-GVA62plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits&#174;%20%GVA-62+%20%flat%20%gain,%20%high%20%linearity%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.01-6%20%GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/GVA-62plus.pdf target="blank">GVA-62plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=27&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-GVA62plus-001_datasheet.pdf" target="blank">AMPXP-MCL-GVA62plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 18 </td> <td width="10%"> 19.8 </td> <td width="10%"> </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GVA-63plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-GVA63plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits&#174;%20%GVA-63+%20%high%20%gain,%20%high%20%linearity%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.01-6%20%GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/Xparameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/GVA-63plus.pdf target="blank">GVA-63plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=28&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-GVA63plus-001_datasheet.pdf" target="blank">AMPXP-MCL-GVA63plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 18 </td> <td width="10%"> 19.0 </td> <td width="10%"> </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GVA-84plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-GVA84plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits%20%GVA-84+%20%wideband%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%DC-7GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/GVA-84plus.pdf target="blank">GVA-84plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=29&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-GVA84plus-001_datasheet.pdf" target="blank">AMPXP-MCL-GVA84plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 20.5 </td> <td width="10%"> </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PGA-102plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-PGA102plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits%20%PGA-102+%20%wideband%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05%20%-%20%6GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PGA-102plus.pdf target="blank">PGA-102plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=30&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-PGA102plus-001_datasheet.pdf" target="blank">AMPXP-MCL-PGA102plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 17.5 </td> <td width="10%"> </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PGA-103plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-PGA103plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits%20%PGA-103+%20%wideband%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05%20%-%20%4GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PGA-103plus.pdf target="blank">PGA-103plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=31&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-PGA103plus-001_datasheet.pdf" target="blank">AMPXP-MCL-PGA103plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 22.5 </td> <td width="10%"> </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PHA-1plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-PHA1plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits&#174;%20%PHA-1+%20%low%20%noise,%20%high%20%linearity%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05-6%20%GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/Xparameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PHA-1plus.pdf target="blank">PHA-1plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=33&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-PHA1plus-001_datasheet.pdf" target="blank">AMPXP-MCL-PHA1plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 18 </td> <td width="10%"> 22.0 </td> <td width="10%"> </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PHA-22plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-PHA22plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits%20%PHA-22+%20%dual%20%matched%20%wideband%20%amplifier%20%in%20%a%20%6.0%20%x%20%4.9mm%20%MCLP%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05-1.5GHz%20%applications%20%and%20%offers%20%a%20%gain%20%match%20%of%20%0.2dB,%20%phase%20%match%20%of%20%1.6%20%degrees%20%and%20%low%20%noise.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PHA-22plus.pdf target="blank">PHA-22plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=34&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-PHA22plus-001_datasheet.pdf" target="blank">AMPXP-MCL-PHA22plus-001</a> </td> <td width="10%"> DL1020 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 22.0 </td> <td width="10%"> </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PSA4-5043plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-PSA4-5043plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits%20%PSA4- 5043+%20%ultra%20%low%20%noise,%20%MMIC%20%amplifier%20%in%20%a%20%SOT-343%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05-4 GHz%20%applications%20%and%20%supports%20%high%20%linear%20%dynamic%20%range%20%requirements.%20%A%20%combination%20%of%20%SParameter with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small -signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PSA4-5043plus.pdf target="blank">PSA4-5043plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=35&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-PSA4-5043plus-001_datasheet.pdf" target="blank">AMPXP-MCL-PSA4-5043plus-001</a> </td> <td width="10%"> SOT-343 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 21.0 </td> <td width="10%"> </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HFCN-2700plus data-key-5=%20% data-key-6=The%20%HPF-MCL-HFCN2700-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%HFCN-2700+%20%ceramic%20%high-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/HFCN-2700plus.pdf target="blank">HFCN-2700plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=306&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPF-MCL-HFCN2700-001_datasheet.pdf" target="blank">HPF-MCL-HFCN2700-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HFCN-2700plus data-key-5=%20% data-key-6=The%20%HPF-MCL-HFCN2700-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%HFCN-2700+%20%ceramic%20%high-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/HFCN-2700plus.pdf target="blank">HFCN-2700plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=307&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPF-MCL-HFCN2700-001-S_datasheet.pdf" target="blank">HPF-MCL-HFCN2700-001-S</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HFCN-3800plus data-key-5=%20% data-key-6=The%20%HPF-MCL-HFCN3800-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%HFCN-3800+%20%ceramic%20%high-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/HFCN-3800plus.pdf target="blank">HFCN-3800plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=308&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPF-MCL-HFCN3800-001_datasheet.pdf" target="blank">HPF-MCL-HFCN3800-001</a> </td> <td width="10%"> FV1206-1 </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HFCN-5500plus data-key-5=%20% data-key-6=The%20%HPF-MCL-HFCN5500-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%HFCN-5500+%20%ceramic%20%high-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/HFCN-5500plus.pdf target="blank">HFCN-5500plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=309&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPF-MCL-HFCN5500-001_datasheet.pdf" target="blank">HPF-MCL-HFCN5500-001</a> </td> <td width="10%"> FV1206-1 </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HFCN-740plus data-key-5=%20% data-key-6=The%20%HPF-MCL-HFCN740-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%HFCN-740+%20%ceramic%20%high-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/HFCN-740plus.pdf target="blank">HFCN-740plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=310&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPF-MCL-HFCN740-001_datasheet.pdf" target="blank">HPF-MCL-HFCN740-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HFCN-880plus data-key-5=%20% data-key-6=The%20%HPF-MCL-HFCN880-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%HFCN-880+%20%ceramic%20%high-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/HFCN-880plus.pdf target="blank">HFCN-880plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=311&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPF-MCL-HFCN880-001_datasheet.pdf" target="blank">HPF-MCL-HFCN880-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EP2Cplus data-key-5=%20% data-key-6=The%20%SPLSP-MCL-EP2CPlus-001%20%is%20%a%20%multi-substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits EP2C+%20%series%20%surface%20%mount%20%chip%20%splitter%20%in%20%a%20%4x4%20%mm%20%QFN%20%package(additional%20%information%20%is%20%available%20%at (www.minicircuits.com).%20%The%20%splitter/combiner%20%is%20%designed%20%for%20%wideband%20%operation%20%from%20%1800%20%MHz%20%to%20%12500 MHz.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%thick%20%Rogers%20%4350B,%20%a%20%10%20%mil thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/EP2Cplus.pdf target="blank">EP2Cplus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1062&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-MCL-EP2CPlus-001_datasheet.pdf" target="blank">SPLSP-MCL-EP2CPlus-001</a> </td> <td width="10%"> DG1847 package </td> <td width="10%"> Splitter </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EP2K1plus data-key-5=%20% data-key-6=The%20%SPLSP-MCL-EP2K1Plus-001%20%is%20%a%20%multi-substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits EP2K1+%20%series%20%surface%20%mount%20%chip%20%splitter%20%in%20%a%20%4x4%20%mm%20%QFN%20%package(additional%20%information%20%is%20%available%20%at (www.minicircuits.com).%20%The%20%splitter/combiner%20%is%20%designed%20%for%20%wideband%20%operation%20%from%20%1.8%20%GHz%20%to%20%28%20%GHz. These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%thick%20%Rogers%20%4350B,%20%a%20%10%20%mil%20%thick Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/EP2K1plus.pdf target="blank">EP2K1plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1063&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-MCL-EP2K1Plus-001_datasheet.pdf" target="blank">SPLSP-MCL-EP2K1Plus-001</a> </td> <td width="10%"> DG1847 package </td> <td width="10%"> Splitter </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EP2Kplus data-key-5=%20% data-key-6=The%20%SPLSP-MCL-EP2KPlus-001%20%is%20%a%20%multi-substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits EP2K+%20%series%20%surface%20%mount%20%chip%20%splitter%20%in%20%a%20%4x4%20%mm%20%QFN%20%package(additional%20%information%20%is%20%available%20%at (www.minicircuits.com).%20%The%20%splitter/combiner%20%is%20%designed%20%for%20%wideband%20%operation%20%from%20%5%20%GHz%20%to%20%20%20%GHz.%20%These S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%thick%20%Rogers%20%4350B,%20%a%20%10%20%mil%20%thick%20%Rogers 4350B%20%substrate,%20%or%20%similar%20%board%20%type. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/EP2Kplus.pdf target="blank">EP2Kplus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1064&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-MCL-EP2KPlus-001_datasheet.pdf" target="blank">SPLSP-MCL-EP2KPlus-001</a> </td> <td width="10%"> DG1847 package </td> <td width="10%"> Splitter </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EP2W1plus data-key-5=%20% data-key-6=The%20%SPLSP-MCL-EP2W1Plus-001%20%is%20%a%20%multi-substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits EP2W1+%20%series%20%surface%20%mount%20%chip%20%splitter%20%in%20%a%20%5x5%20%mm%20%QFN%20%package(additional%20%information%20%is%20%available%20%at (www.minicircuits.com).%20%The%20%splitter/combiner%20%is%20%designed%20%for%20%wideband%20%operation%20%from%20%500%20%MHz%20%to%20%9500%20%MHz. These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%thick%20%Rogers%20%4350B,%20%a%20%10%20%mil%20%thick Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/EP2W1plus.pdf target="blank">EP2W1plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1065&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-MCL-EP2W1Plus-001_datasheet.pdf" target="blank">SPLSP-MCL-EP2W1Plus-001</a> </td> <td width="10%"> DG1677-2 </td> <td width="10%"> Splitter </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EP2Wplus data-key-5=%20% data-key-6=The%20%SPLSP-MCL-EP2WPlus-001%20%is%20%a%20%multi-substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits EP2W+%20%series%20%surface%20%mount%20%chip%20%splitter%20%in%20%a%20%5x5%20%mm%20%QFN%20%package(additional%20%information%20%is%20%available%20%at (www.minicircuits.com).%20%The%20%splitter/combiner%20%is%20%designed%20%for%20%wideband%20%operation%20%from%20%700%20%MHz%20%to%20%6000%20%MHz. These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%thick%20%Rogers%20%4350B,%20%a%20%10%20%mil%20%thick Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/EP2Wplus.pdf target="blank">EP2Wplus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1066&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-MCL-EP2WPlus-001_datasheet.pdf" target="blank">SPLSP-MCL-EP2WPlus-001</a> </td> <td width="10%"> DG1677-2 </td> <td width="10%"> Splitter </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EPQ133plus data-key-5=%20% data-key-6=The%20%SPLSP-MCL-EPQ133Plus-001%20%is%20%a%20%multi-substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits EPQ-133+%20%series%20%surface%20%mount%20%chip%20%splitter%20%in%20%a%20%4x4%20%mm%20%QFN%20%package(additional%20%information%20%is%20%available%20%at (www.minicircuits.com).%20%The%20%splitter/combiner%20%is%20%designed%20%for%20%wideband%20%operation%20%from%20%6000%20%MHz%20%to%20%14000 MHz.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%thick%20%Rogers%20%4350B,%20%a%20%10%20%mil thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/EPQ133plus.pdf target="blank">EPQ133plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1067&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-MCL-EPQ133Plus-001_datasheet.pdf" target="blank">SPLSP-MCL-EPQ133Plus-001</a> </td> <td width="10%"> DG1847 package </td> <td width="10%"> Splitter </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XBF-Series data-key-5=%20% data-key-6=BPFSP-MCL-DG1847-001%20%in%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%XBF%20%Series%20%surface%20%mount%20%bandpass%20%filters%20%in%20%a%20%4%20%x%20%4%20%mm%20%DG1847%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%user%20%can%20%select%20%from%20%two%20%available%20%substrates.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type%20%(e.g,%20%same%20%thickness%20%and%20%dielectric%20%thickness%20%3.66%20%+/-%20%0.4).%20%The%20%model%20%is%20%applicable%20%when%20%using%20%similar%20%PCB%20%footprint. data-key-8=BandPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/XBF-Series.pdf target="blank">XBF-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1081&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBandPassFilter%2FBPFSP-MCL-DG1847-001_datasheet.pdf" target="blank">BPFSP-MCL-DG1847-001</a> </td> <td width="10%"> DG1847 package </td> <td width="10%"> BandPassFilter </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XBF-Series data-key-5=%20% data-key-6=BPFSP-MCL-DQ1225-001%20%in%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%XBF-282+%20%surface%20%mount%20%bandpass%20%filter%20%in%20%a%20%3%20%x%20%3%20%mm%20%DQ1225%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%user%20%can%20%select%20%from%20%two%20%available%20%substrates.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type%20%(e.g,%20%same%20%thickness%20%and%20%dielectric%20%thickness%20%3.66%20%+/-%20%0.4).%20%The%20%model%20%is%20%applicable%20%when%20%using%20%similar%20%PCB%20%footprint data-key-8=BandPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/XBF-Series.pdf target="blank">XBF-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1082&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBandPassFilter%2FBPFSP-MCL-DQ1225-001_datasheet.pdf" target="blank">BPFSP-MCL-DQ1225-001</a> </td> <td width="10%"> DQ1225 package </td> <td width="10%"> BandPassFilter </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XHF-Series data-key-5=%20% data-key-6=HPFSP-MCL-DG1847-001%20%in%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%X-Series%20%surface%20%mount%20%bandpass%20%filters%20%in%20%a%20%4%20%x%20%4%20%mm%20%DG1847%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%user%20%can%20%select%20%from%20%two%20%available%20%substrates.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type%20%(e.g,%20%same%20%thickness%20%and%20%dielectric%20%thickness%20%3.66%20%+/-%20%0.4).%20%The%20%model%20%is%20%applicable%20%when%20%using%20%similar%20%PCB%20%footprint. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/XHF-Series.pdf target="blank">XHF-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1083&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPFSP-MCL-DG1847-001_datasheet.pdf" target="blank">HPFSP-MCL-DG1847-001</a> </td> <td width="10%"> DG1847 package </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XHF-Series data-key-5=%20% data-key-6=HPFSP-MCL-DG1677-001%20%in%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%X-Series%20%surface%20%mount%20%bandpass%20%filters%20%in%20%a%20%5%20%x%20%5%20%mm%20%DG1677%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%user%20%can%20%select%20%from%20%two%20%available%20%substrates.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type%20%(e.g,%20%same%20%thickness%20%and%20%dielectric%20%thickness%20%3.66%20%+/-%20%0.4).%20%The%20%model%20%is%20%applicable%20%when%20%using%20%similar%20%PCB%20%footprint. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/XHF-Series.pdf target="blank">XHF-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1084&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPFSP-MCL-DG1677-001_datasheet.pdf" target="blank">HPFSP-MCL-DG1677-001</a> </td> <td width="10%"> DG1677 package </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XHF-Series data-key-5=%20% data-key-6=HPFSP-MCL-DQ1225-001%20%in%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%X-Series%20%surface%20%mount%20%bandpass%20%filters%20%in%20%a%20%3%20%x%20%3%20%mm%20%DQ1225%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%user%20%can%20%select%20%from%20%two%20%available%20%substrates.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type%20%(e.g,%20%same%20%thickness%20%and%20%dielectric%20%thickness%20%3.66%20%+/-%20%0.4).%20%The%20%model%20%is%20%applicable%20%when%20%using%20%similar%20%PCB%20%footprint. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/XHF-Series.pdf target="blank">XHF-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1085&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPFSP-MCL-DQ1225-001_datasheet.pdf" target="blank">HPFSP-MCL-DQ1225-001</a> </td> <td width="10%"> DQ1225 package </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XHF2-Series data-key-5=%20% data-key-6=HPFSP-MCL-MC1630-001%20%in%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%XHF2-Series%20%surface%20%mount%20%band-pass%20%filters%20%in%20%a%20%2%20%x%20%2%20%mm%20%MC1630%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%user%20%can%20%select%20%from%20%two%20%available%20%substrates.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type%20%(e.g,%20%same%20%thickness%20%and%20%dielectric%20%thickness%20%3.66%20%+/-%20%0.4).%20%The%20%model%20%is%20%applicable%20%when%20%using%20%similar%20%PCB%20%footprint. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/XHF2-Series.pdf target="blank">XHF2-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1086&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPFSP-MCL-MC1630-001_datasheet.pdf" target="blank">HPFSP-MCL-MC1630-001</a> </td> <td width="10%"> MC1630 package </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XHF-Series data-key-5=%20% data-key-6=HPFSP-MCL-DQ1225-02%20%in%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%X-Series%20%surface%20%mount%20%band-pass%20%filters%20%in%20%a%20%4%20%x%20%4%20%mm%20%DQ1225%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%user%20%can%20%select%20%from%20%two%20%available%20%substrates.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type%20%(e.g,%20%same%20%thickness%20%and%20%dielectric%20%thickness%20%3.66%20%+/-%20%0.4).%20%The%20%model%20%is%20%applicable%20%when%20%using%20%similar%20%PCB%20%footprint. data-key-8=HighPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/XHF-Series.pdf target="blank">XHF-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1087&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPFSP-MCL-DQ1225-002_datasheet.pdf" target="blank">HPFSP-MCL-DQ1225-002</a> </td> <td width="10%"> DQ1225 package </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XLF-Series data-key-5=%20% data-key-6=LPFSP-MCL-DG1677-001%20%in%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%X-Series%20%surface%20%mount%20%bandpass%20%filters%20%in%20%a%20%5%20%x%20%5%20%mm%20%DG1677%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%user%20%can%20%select%20%from%20%two%20%available%20%substrates.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type%20%(e.g,%20%same%20%thickness%20%and%20%dielectric%20%thickness%20%3.66%20%+/-%20%0.4).%20%The%20%model%20%is%20%applicable%20%when%20%using%20%similar%20%PCB%20%footprint. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/XLF-Series.pdf target="blank">XLF-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1088&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPFSP-MCL-DG1677-001_datasheet.pdf" target="blank">LPFSP-MCL-DG1677-001</a> </td> <td width="10%"> DG1677 package </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XLF-Series data-key-5=%20% data-key-6=LPFSP-MCL-DG1847-001%20%in%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%X-Series%20%surface%20%mount%20%bandpass%20%filters%20%in%20%a%20%4%20%x%20%4%20%mm%20%DG1847%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%user%20%can%20%select%20%from%20%two%20%available%20%substrates.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type%20%(e.g,%20%same%20%thickness%20%and%20%dielectric%20%thickness%20%3.66%20%+/-%20%0.4).%20%The%20%model%20%is%20%applicable%20%when%20%using%20%similar%20%PCB%20%footprint. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/XLF-Series.pdf target="blank">XLF-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1089&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPFSP-MCL-DG1847-001_datasheet.pdf" target="blank">LPFSP-MCL-DG1847-001</a> </td> <td width="10%"> DG1847 package </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XLF-Series data-key-5=%20% data-key-6=LPFSP-MCL-DQ1225-001%20%in%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%X-Series%20%surface%20%mount%20%bandpass%20%filters%20%in%20%a%20%3%20%x%20%3%20%mm%20%DQ1225%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%user%20%can%20%select%20%from%20%two%20%available%20%substrates.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrate,%20%or%20%similar%20%board%20%type%20%(e.g,%20%same%20%thickness%20%and%20%dielectric%20%thickness%20%3.66%20%+/-%20%0.4).%20%The%20%model%20%is%20%applicable%20%when%20%using%20%similar%20%PCB%20%footprint. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/XLF-Series.pdf target="blank">XLF-Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1090&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPFSP-MCL-DQ1225-001_datasheet.pdf" target="blank">LPFSP-MCL-DQ1225-001</a> </td> <td width="10%"> DQ1225 package </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NCS1-63plus data-key-5=%20% data-key-6=The%20%XFRSP-MCL-NCS163Plus-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%series%20%surface%20%mount%20%chip%20%transformers%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com/).%20%It%20%is%20%a%20%ceramic%20%balun%20%RF%20%1:1%20%ratio%20%transformer%20%with%20%a%20%wideband%20%frequency%20%range%20%of%20%4900%20%to%20%6000%20%MHz.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%the%20%6.6%20%mil%20%thick%20%Rogers%20%4350B%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrates%20%or%20%similar%20%board%20%types. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/NCS1-63plus.pdf target="blank">NCS1-63plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1091&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFRSP-MCL-NCS163Plus-001_datasheet.pdf" target="blank">XFRSP-MCL-NCS163Plus-001</a> </td> <td width="10%"> GEO805c-1 </td> <td width="10%"> Transformer </td> <td width="10%"> 22 </td> <td width="10%"> </td> <td width="10%"> 25 - 50 Ohm </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NCS1-422plus data-key-5=%20% data-key-6=The%20%XFRSP-MCL-NCS1422Plus-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%series%20%surface%20%mount%20%chip%20%transformers%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com/).%20%It%20%is%20%a%20%ceramic%20%balun%20%RF%20%1:1%20%ratio%20%transformer%20%with%20%a%20%wideband%20%frequency%20%range%20%of%20%3300%20%to%20%4000%20%MHz.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%the%20%6.6%20%mil%20%thick%20%Rogers%20%4350B%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrates%20%or%20%similar%20%board%20%types. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/NCS1-422plus.pdf target="blank">NCS1-422plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1092&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFRSP-MCL-NCS1422Plus-001_datasheet.pdf" target="blank">XFRSP-MCL-NCS1422Plus-001</a> </td> <td width="10%"> GEO805c-1 </td> <td width="10%"> Transformer </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 25 -50 oHM </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NCS2-83plus data-key-5=%20% data-key-6=The%20%XFRSP-MCL-NCS283Plus-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%series%20%surface%20%mount%20%chip%20%transformers%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com/).%20%It%20%is%20%a%20%ceramic%20%balun%20%RF%20%1:2%20%ratio%20%transformer%20%with%20%a%20%wideband%20%frequency%20%range%20%of%20%3000%20%to%20%8000%20%MHz.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%the%20%6.6%20%mil%20%thick%20%Rogers%20%4350B%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrates%20%or%20%similar%20%board%20%types. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/NCS2-83plus.pdf target="blank">NCS2-83plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1093&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFRSP-MCL-NCS283Plus-001_datasheet.pdf" target="blank">XFRSP-MCL-NCS283Plus-001</a> </td> <td width="10%"> GEO805c-1 </td> <td width="10%"> Transformer </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NCS2-392plus data-key-5=%20% data-key-6=The%20%XFRSP-MCL-NCS2392Plus-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%Mini-Circuits%20%series%20%surface%20%mount%20%chip%20%transformers%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com/).%20%It%20%is%20%a%20%ceramic%20%balun%20%RF%20%1:2%20%ratio%20%transformer%20%with%20%a%20%wideband%20%frequency%20%range%20%of%20%3000%20%to%20%3900%20%MHz.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%the%20%6.6%20%mil%20%thick%20%Rogers%20%4350B%20%and%20%10%20%mil%20%thick%20%Rogers%20%4350B%20%substrates%20%or%20%similar%20%board%20%types. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/NCS2-392plus.pdf target="blank">NCS2-392plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1094&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFRSP-MCL-NCS2392Plus-001_datasheet.pdf" target="blank">XFRSP-MCL-NCS2392Plus-001</a> </td> <td width="10%"> GEO805c-1 </td> <td width="10%"> Transformer </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> SP </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=KAT data-key-5=%20% data-key-6=The%20%ATT-MCL-KAT-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits%20%KAT%20%P/N%20%surface%20%mount%20%attenuator%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Component%20%value,%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%Although%20%this%20%model%20%is%20%intended%20%for%20%microstrip%20%applications,%20%the%20%model%20%has%20%been%20%validated%20%on%20%grounded-CPW%20%test%20%fixtures%20%on%20%10%20%mil%20%Rogers%20%4350B.%20% data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/KAT.pdf target="blank">KAT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1186&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-MCL-KAT-001_datasheet.pdf" target="blank">ATT-MCL-KAT-001</a> </td> <td width="10%"> KAT </td> <td width="10%"> Attenuator </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SAV-551plus data-key-5=%20% data-key-6=The%20%HMT-MCL-SAV581%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%SAV-581+%20%package%20%E-pHEMT%20%transistor,%20%in%20%a%20%4-lead%20%%20%%20%OT343%20%(SC-70)%20%package,%20%with%20%MMM1362%20%case%20%style%20%(additional%20%product%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%substrate%20%and%20%temperature%20%scalable%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%large-signal%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%and%20%GCPW%20%printed%20%circuit%20%boards.%20%This%20%product%20%is%20%recommended%20%for%20%its%20%low%20%noise%20%and%20%IP3%20%characteristics%20%making%20%it%20%ideal%20%for%20%sensitive%20%receivers%20%in%20%communication%20%systems%20%in%20%the%20%0.045%20%to%20%6%20%GHz%20%frequency%20%range. data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/SAV-551plus.pdf target="blank">SAV-551plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1187&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-MCL-SAV551_datasheet.pdf" target="blank">HMT-MCL-SAV551</a> </td> <td width="10%"> SOT-343 </td> <td width="10%"> PHEMT </td> <td width="10%"> 20 </td> <td width="10%"> 17.4 </td> <td width="10%"> </td> <td width="10%"> BB, NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SAV-331plus data-key-5=%20% data-key-6=The%20%HMT-MCL-SAV331%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%SAV-311+%20%package%20%D-pHEMT%20%transistor,%20%in%20%a%20%4-lead%20%SOT-343%20%(SC-70)%20%package,%20%with%20%MMM1362%20%case%20%style%20%(additional%20%product%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%substrate%20%and%20%temperature%20%scalable%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%large-signal%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%and%20%GCPW%20%printed%20%circuit%20%boards.%20%This%20%product%20%is%20%recommended%20%for%20%its%20%low%20%noise%20%and%20%IP3%20%characteristics%20%making%20%it%20%ideal%20%for%20%sensitive%20%receivers%20%in%20%communication%20%systems%20%in%20%the%20%0.01%20%to%20%4%20%GHz%20%frequency%20%range. data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/SAV-331plus.pdf target="blank">SAV-331plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1179&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-MCL-SAV331_datasheet.pdf" target="blank">HMT-MCL-SAV331</a> </td> <td width="10%"> SOT-343 </td> <td width="10%"> PHEMT </td> <td width="10%"> 20 </td> <td width="10%"> 21.4 </td> <td width="10%"> </td> <td width="10%"> BB, NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SAV-541plus data-key-5=%20% data-key-6=The%20%HMT-MCL-SAV541%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%SAV-541+%20%package%20%E-pHEMT%20%transistor,%20%in%20%a%20%4-lead%20%SOT343%20%(SC-70)%20%package,%20%with%20%MMM1362%20%case%20%style%20%(additional%20%product%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%substrate%20%and%20%temperature%20%scalable%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%large-signal%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%and%20%GCPW%20%printed%20%circuit%20%boards.%20%This%20%product%20%is%20%recommended%20%for%20%its%20%low%20%noise%20%and%20%IP3%20%characteristics%20%making%20%it%20%ideal%20%for%20%sensitive%20%receivers%20%in%20%communication%20%systems%20%in%20%the%20%0.045%20%to%20%6%20%GHz%20%frequency%20%range.%20% data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/SAV-541plus.pdf target="blank">SAV-541plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1180&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-MCL-SAV541_datasheet.pdf" target="blank">HMT-MCL-SAV541</a> </td> <td width="10%"> SOT-343 </td> <td width="10%"> PHEMT </td> <td width="10%"> 20 </td> <td width="10%"> 19.3 </td> <td width="10%"> </td> <td width="10%"> BB, NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SAV-581plus data-key-5=%20% data-key-6=The%20%HMT-MCL-SAV581%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%SAV-581+%20%package%20%E-pHEMT%20%transistor,%20%in%20%a%20%4-lead%20%%20%%20%OT343%20%(SC-70)%20%package,%20%with%20%MMM1362%20%case%20%style%20%(additional%20%product%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%substrate%20%and%20%temperature%20%scalable%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%large-signal%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%and%20%GCPW%20%printed%20%circuit%20%boards.%20%This%20%product%20%is%20%recommended%20%for%20%its%20%low%20%noise%20%and%20%IP3%20%characteristics%20%making%20%it%20%ideal%20%for%20%sensitive%20%receivers%20%in%20%communication%20%systems%20%in%20%the%20%0.045%20%to%20%6%20%GHz%20%frequency%20%range. data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/SAV-581plus.pdf target="blank">SAV-581plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1182&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-MCL-SAV581_datasheet.pdf" target="blank">HMT-MCL-SAV581</a> </td> <td width="10%"> SOT-343 </td> <td width="10%"> PHEMT </td> <td width="10%"> 20 </td> <td width="10%"> 19.2 </td> <td width="10%"> </td> <td width="10%"> BB, NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TAV2-14LNplus data-key-5=%20% data-key-6=The%20%HMT-MCL-TAV214LN%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%TAV2-14LN+%20%package%20%E-pHEMT%20%transistor,%20%in%20%a%20%6-pin%20%2x2%20%mm%20%MCLP%20%package,%20%with%20%MC1630-1%20%case%20%style%20%(additional%20%product%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%substrate%20%and%20%temperature%20%scalable%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%large-signal%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%and%20%GCPW%20%printed%20%circuit%20%boards.%20%This%20%product%20%is%20%recommended%20%for%20%its%20%low%20%noise%20%and%20%IP3%20%characteristics%20%making%20%it%20%ideal%20%for%20%sensitive%20%receivers%20%in%20%communication%20%systems%20%in%20%the%20%0.045%20%to%20%20%20%GHz%20%frequency%20%range. data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/TAV2-14LNplus.pdf target="blank">TAV2-14LNplus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1183&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-MCL-TAV214LN_datasheet.pdf" target="blank">HMT-MCL-TAV214LN</a> </td> <td width="10%"> MCLP 2x2 </td> <td width="10%"> PHEMT </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, SS, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=YAT-A data-key-5=%20% data-key-6=The%20%ATT-MCL-YATA-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits%20%YAT-A%20%P/N%20%surface%20%mount%20%attenuator%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Component%20%value,%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%Although%20%this%20%model%20%is%20%intended%20%for%20%microstrip%20%applications,%20%the%20%model%20%has%20%been%20%validated%20%on%20%grounded-CPW%20%test%20%fixtures%20%on%20%10%20%mil%20%Rogers%20%4350B%20%and%20%6.6%20%mil%20%Rogers%20%4350B.%20% data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/YAT-A.pdf target="blank">YAT-A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1184&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-MCL-YATA-001_datasheet.pdf" target="blank">ATT-MCL-YATA-001</a> </td> <td width="10%"> YATA </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PGA-103plus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PGA103Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%wideband%20%monolithic%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%a%20%4-pin%20%SOT-89%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%specified%20%location%20%near%20%the%20%package%20%edge.%20%The%20%Modelithics%20%S-Parameter%20%with%20%Noise%20%model%20%enables%20%fast%20%circuit%20%design%20%simulations%20%within%20%the%20%measurement%20%conditions%20%shown%20%under%20%Technical%20%Notes,%20%at%20%25%20%C.%20%The%20%ultra-linear%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%by%20%Mini-Circuits%20%for%20%0.05–4%20%GHz%20%applications.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PGA-103plus.pdf target="blank">PGA-103plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1103&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PGA103Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-PGA103Plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 22.5 </td> <td width="10%"> </td> <td width="10%"> BB, SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PGA-103plus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PGA103Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%wideband%20%monolithic%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%a%20%4-pin%20%SOT-89%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%specified%20%location%20%near%20%the%20%package%20%edge.%20%The%20%Modelithics%20%S-Parameter%20%with%20%Noise%20%model%20%enables%20%fast%20%circuit%20%design%20%simulations%20%within%20%the%20%measurement%20%conditions%20%shown%20%under%20%Technical%20%Notes,%20%at%20%25%20%C.%20%The%20%ultra-linear%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%by%20%Mini-Circuits%20%for%20%0.05–4%20%GHz%20%applications.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PGA-103plus.pdf target="blank">PGA-103plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1103&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PGA103Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-PGA103Plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 22.5 </td> <td width="10%"> </td> <td width="10%"> BB, SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA2-43LNPlus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA243LNPlus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%an%20%8-pin%20%2%20%x%20%2%20%mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%specified%20%location%20%near%20%the%20%package%20%edge.%20%The%20%Modelithics%20%S-Parameter%20%with%20%Noise%20%model%20%enables%20%fast%20%circuit%20%design%20%simulations%20%within%20%the%20%measurement%20%conditions%20%shown%20%under%20%Technical%20%Notes,%20%at%20%25%20%C.%20%The%20%ultra-linear%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%by%20%Mini-Circuits%20%for%20%1.1–%20%4%20%GHz%20%applications.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA2-43LNPlus.pdf target="blank">PMA2-43LNPlus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1104&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA243LNPlus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA243LNPlus-001</a> </td> <td width="10%"> 8-pin 2x2mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 19.0 </td> <td width="10%"> </td> <td width="10%"> BB, SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA2-43LNPlus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA243LNPlus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%an%20%8-pin%20%2%20%x%20%2%20%mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%specified%20%location%20%near%20%the%20%package%20%edge.%20%The%20%Modelithics%20%S-Parameter%20%with%20%Noise%20%model%20%enables%20%fast%20%circuit%20%design%20%simulations%20%within%20%the%20%measurement%20%conditions%20%shown%20%under%20%Technical%20%Notes,%20%at%20%25%20%C.%20%The%20%ultra-linear%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%by%20%Mini-Circuits%20%for%20%1.1–%20%4%20%GHz%20%applications.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA2-43LNPlus.pdf target="blank">PMA2-43LNPlus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1104&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA243LNPlus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA243LNPlus-001</a> </td> <td width="10%"> 8-pin 2x2mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 19.0 </td> <td width="10%"> </td> <td width="10%"> BB, SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA3-83LNPlus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA383LNPlus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%a%20%12-pin%20%3%20%x%20%3%20%mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%specified%20%location%20%near%20%the%20%package%20%edge.%20%The%20%Modelithics%20%S-Parameter%20%with%20%Noise%20%model%20%enables%20%fast%20%circuit%20%design%20%simulations%20%within%20%the%20%measurement%20%conditions%20%shown%20%under%20%Technical%20%Notes,%20%at%20%25%20%C.%20%The%20%ultra-linear%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%by%20%Mini-Circuits%20%for%20%0.5%20%–%20%8%20%GHz%20%applications.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA3-83LNPlus.pdf target="blank">PMA3-83LNPlus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1105&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA383LNPlus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA383LNPlus-001</a> </td> <td width="10%"> 8 pin 3x3 mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 19.0 </td> <td width="10%"> </td> <td width="10%"> BB, SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA3-83LNPlus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA383LNPlus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%a%20%12-pin%20%3%20%x%20%3%20%mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%specified%20%location%20%near%20%the%20%package%20%edge.%20%The%20%Modelithics%20%S-Parameter%20%with%20%Noise%20%model%20%enables%20%fast%20%circuit%20%design%20%simulations%20%within%20%the%20%measurement%20%conditions%20%shown%20%under%20%Technical%20%Notes,%20%at%20%25%20%C.%20%The%20%ultra-linear%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%by%20%Mini-Circuits%20%for%20%0.5%20%–%20%8%20%GHz%20%applications.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA3-83LNPlus.pdf target="blank">PMA3-83LNPlus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1105&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA383LNPlus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA383LNPlus-001</a> </td> <td width="10%"> 8 pin 3x3 mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 19.0 </td> <td width="10%"> </td> <td width="10%"> BB, SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA2-133LNPlus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA2133LNPlus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%a%20%6-pin%20%2%20%x%20%2%20%mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%specified%20%location%20%near%20%the%20%package%20%edge.%20%The%20%Modelithics%20%S-Parameter%20%with%20%Noise%20%model%20%enables%20%fast%20%circuit%20%design%20%simulations%20%within%20%the%20%measurement%20%conditions%20%shown%20%under%20%Technical%20%Notes,%20%at%20%25%20%C.%20%The%20%ultra-linear%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%by%20%Mini-Circuits%20%for%20%10%20%–%20%13%20%GHz%20%applications.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA2-133LNPlus.pdf target="blank">PMA2-133LNPlus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1106&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA2133LNPlus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA2133LNPlus-001</a> </td> <td width="10%"> 6-pin 2x2 mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 13.0 </td> <td width="10%"> </td> <td width="10%"> BB, SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA2-133LNPlus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA2133LNPlus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%a%20%6-pin%20%2%20%x%20%2%20%mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%specified%20%location%20%near%20%the%20%package%20%edge.%20%The%20%Modelithics%20%S-Parameter%20%with%20%Noise%20%model%20%enables%20%fast%20%circuit%20%design%20%simulations%20%within%20%the%20%measurement%20%conditions%20%shown%20%under%20%Technical%20%Notes,%20%at%20%25%20%C.%20%The%20%ultra-linear%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%by%20%Mini-Circuits%20%for%20%10%20%–%20%13%20%GHz%20%applications.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA2-133LNPlus.pdf target="blank">PMA2-133LNPlus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1106&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA2133LNPlus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA2133LNPlus-001</a> </td> <td width="10%"> 6-pin 2x2 mm DFN </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 13.0 </td> <td width="10%"> </td> <td width="10%"> BB, SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AVA-183Plus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-AVA183Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%wideband%20%monolithic%20%amplifier%20%using%20%InGaAs%20%PHEMT%20%technology%20%in%20%an%20%8-pin%20%3x3mm%20%SMT%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%near%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%5.0%20%–%20%18.0%20%GHz%20%applications.%20%The%20%use%20%of%20%S-Parameters%20%with%20%noise%20%model%20%enables%20%circuit%20%design%20%at%20%25C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/AVA-183Plus.pdf target="blank">AVA-183Plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1124&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-AVA183Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-AVA183Plus-001</a> </td> <td width="10%"> DQ849 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 19.0 </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA2-33LNPlus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA2-33LNPlus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%an%20%8-pin%20%2x2mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%near%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.4%20%–%20%3.0%20%GHz%20%applications.%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%enables%20%circuit%20%design%20%at%20%25C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA2-33LNPlus.pdf target="blank">PMA2-33LNPlus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1125&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA233LNPlus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA233LNPlus-001</a> </td> <td width="10%"> MC1631-1 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 17.0 </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA-545Plus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA-545Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%an%20%8-pin%20%3x3mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%specified%20%location%20%near%20%the%20%edge%20%of%20%the%20%package.%20%The%20%Modelithics%20%SParameter%20%with%20%Noise%20%model%20%enables%20%fast%20%circuit%20%design%20%simulations%20%within%20%the%20%measurement%20%conditions%20%shown%20%under%20%Technical%20%Notes,%20%at%20%25%20%C.%20%The%20%ultra-linear%20%low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%by%20%Mini-Circuits%20%for%20%0.05%20%–%20%6%20%GHz%20%applications.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA-545Plus.pdf target="blank">PMA-545Plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1126&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA-545Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA-545Plus-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 20.0 </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA-5451Plus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA-5451Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%an%20%8-pin%20%3x3mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.05%20%–%20%6.0%20%GHz%20%applications.%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%model%20%enables%20%circuit%20%design%20%at%20%25C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA-5451Plus.pdf target="blank">PMA-5451Plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1127&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA5451Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA5451Plus-001</a> </td> <td width="10%"> DQ849 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 17.0 </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA-5452Plus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA-5452Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%an%20%8-pin%20%3x3mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.05%20%–%20%6.0%20%GHz%20%applications.%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%model%20%enables%20%circuit%20%design%20%at%20%25C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA-5452Plus.pdf target="blank">PMA-5452Plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1128&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA5452Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA5452Plus-001</a> </td> <td width="10%"> DQ849 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 18.5 </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA-5453Plus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA-5453Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%an%20%8-pin%20%3x3mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.05%20%–%20%6.0%20%GHz%20%applications.%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%model%20%enables%20%circuit%20%design%20%at%20%25C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA-5453Plus.pdf target="blank">PMA-5453Plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1129&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA5453Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA5453Plus-001</a> </td> <td width="10%"> DQ849 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 19.5 </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA-5454Plus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA-5454Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%an%20%8-pin%20%3x3mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.05%20%–%20%6.0%20%GHz%20%applications.%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%model%20%enables%20%circuit%20%design%20%at%20%25C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA-5454Plus.pdf target="blank">PMA-5454Plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1130&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA5454Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA5454Plus-001</a> </td> <td width="10%"> DQ849 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 15.0 </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA-5455Plus data-key-5=%20% data-key-6=%20%The%20%AMPSP-MCL-PMA-5455Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%an%20%8-pin%20%3x3mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.05%20%–%20%6.0%20%GHz%20%applications.%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%model%20%enables%20%circuit%20%design%20%at%20%25C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA-5455Plus.pdf target="blank">PMA-5455Plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1131&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA5455Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA5455Plus-001</a> </td> <td width="10%"> DQ849 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 19.0 </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PMA-5456Plus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PMA-5456Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%an%20%8-pin%20%3x3mm%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.05%20%–%20%6.0%20%GHz%20%applications.%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%model%20%enables%20%circuit%20%design%20%at%20%25C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PMA-5456Plus.pdf target="blank">PMA-5456Plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1132&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PMA5456Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-PMA5456Plus-001</a> </td> <td width="10%"> DQ849 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 21.5 </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PSA4-5043Plus data-key-5=%20% data-key-6=The%20%AMPSP-MCL-PSA4-5043Plus-001%20%is%20%an%20%S-parameter%20%model%20%with%20%noise%20%for%20%the%20%Mini-Circuits%20%ultra-low%20%noise%20%high%20%IP3%20%MMIC%20%amplifier%20%using%20%E-PHEMT%20%technology%20%in%20%a%20%4-pin%20%SOT-343%20%package%20%as%20%mounted%20%on%20%the%20%depicted%20%test%20%fixture%20%and%20%reference%20%planes%20%at%20%the%20%edge%20%of%20%the%20%package.%20%The%20%ultra-low%20%noise%20%amplifier%20%that%20%is%20%represented%20%by%20%the%20%simulation%20%model%20%is%20%designed%20%for%20%0.05%20%–%20%4.0%20%GHz%20%applications.%20%The%20%use%20%of%20%S-Parameter%20%with%20%noise%20%enables%20%the%20%model%20%enables%20%circuit%20%design%20%at%20%25C.%20%For%20%more%20%information%20%regarding%20%the%20%amplifier%20%product%20%please%20%visit%20%minicircuits.com. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/PSA4-5043Plus.pdf target="blank">PSA4-5043Plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1133&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPSP-MCL-PSA4-5043Plus-001_datasheet.pdf" target="blank">AMPSP-MCL-PSA4-5043Plus-001</a> </td> <td width="10%"> MMM1362 </td> <td width="10%"> Amplifier </td> <td width="10%"> 30 </td> <td width="10%"> 21.0 </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCG-2850plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCG2850-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCG-2850+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%S-Parameters.. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCG-2850plus.pdf target="blank">LFCG-2850plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1134&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCG2850-001_datasheet.pdf" target="blank">LPF-MCL-LFCG2850-001</a> </td> <td width="10%"> GE0805C-2 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCG-400plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN400-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCN-400+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%multi-substrate%20%S-Parameters%20%of%20%microstrip%20%configuration. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCG-400plus.pdf target="blank">LFCG-400plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1135&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCG400-001_datasheet.pdf" target="blank">LPF-MCL-LFCG400-001</a> </td> <td width="10%"> GE0805C-2 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCG-530plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCG530-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCG-530+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%multi-substrate%20%S-Parameters%20%of%20%microstrip%20%configuration. %20% data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCG-530plus.pdf target="blank">LFCG-530plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1136&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCG530-001_datasheet.pdf" target="blank">LPF-MCL-LFCG530-001</a> </td> <td width="10%"> GE0805C-2 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCG-1000plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCG1000-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCG-1000+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%S-Parameters. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCG-1000plus.pdf target="blank">LFCG-1000plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1137&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCG1000-001_datasheet.pdf" target="blank">LPF-MCL-LFCG1000-001</a> </td> <td width="10%"> GE0805C-2 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCG-1575plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCG1575-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCG-1575+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%multi-substrate%20%S-Parameters%20%of%20%microstrip%20%configuration. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCG-1575plus.pdf target="blank">LFCG-1575plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1138&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCG1575-001_datasheet.pdf" target="blank">LPF-MCL-LFCG1575-001</a> </td> <td width="10%"> GE0805C-2 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCG-1700plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCG1700-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCG-1700+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%multi-substrate%20%S-Parameters%20%of%20%microstrip%20%configuration. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCG-1700plus.pdf target="blank">LFCG-1700plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1139&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCG1700-001_datasheet.pdf" target="blank">LPF-MCL-LFCG1700-001</a> </td> <td width="10%"> GE0805C-2 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCG-2250plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCG2250-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCG-2250+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%multi-substrate%20%S-Parameters%20%of%20%microstrip%20%configuration. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCG-2250plus.pdf target="blank">LFCG-2250plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1140&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCG2250-001_datasheet.pdf" target="blank">LPF-MCL-LFCG2250-001</a> </td> <td width="10%"> GE0805C-2 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCG-320plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCG320-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCG-320+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%multi-substrate%20%S-Parameters%20%of%20%microstrip%20%configuration. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCG-320plus.pdf target="blank">LFCG-320plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1143&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCG320-001_datasheet.pdf" target="blank">LPF-MCL-LFCG320-001</a> </td> <td width="10%"> GE0805C-2 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-320plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN320-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCN-320+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%multi-substrate%20%S-Parameters%20%of%20%microstrip%20%configuration. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-320plus.pdf target="blank">LFCN-320plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1145&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN320-001_datasheet.pdf" target="blank">LPF-MCL-LFCN320-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-530plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCG530-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCG-530+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%multi-substrate%20%S-Parameters%20%of%20%microstrip%20%configuration. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-530plus.pdf target="blank">LFCN-530plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1148&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN530-001_datasheet.pdf" target="blank">LPF-MCL-LFCN530-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-1575plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN1575-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCN-1575+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%S-Parameters%20%in%20%GCPW%20%configuration%20%depicted%20%on%20%last%20%page. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-1575plus.pdf target="blank">LFCN-1575plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1153&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN1575-001_datasheet.pdf" target="blank">LPF-MCL-LFCN1575-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LFCN-2850plus data-key-5=%20% data-key-6=The%20%LPF-MCL-LFCN2850-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Mini%20%Circuits%20%P/N%20%LFCN-2850+%20%ceramic%20%low-pass%20%surface%20%mount%20%filter%20%(additional%20%information%20%is%20%available%20%at%20%www.minicircuits.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%3D%20%simulations%20%to%20%capture%20%component%20%behavior%20%and%20%interaction%20%with%20%other%20%circuitry.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%S-Parameters%20%in%20%GCPW%20%configuration%20%depicted%20%on%20%last%20%page. data-key-8=LowPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits <td width="10%"> <a href=/models/Vendor/MiniCircuits/LFCN-2850plus.pdf target="blank">LFCN-2850plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=1158&amp;returnUrl=%2Fmodels%2Fdatasheet%2FLowPassFilter%2FLPF-MCL-LFCN2850-001_datasheet.pdf" target="blank">LPF-MCL-LFCN2850-001</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> LowPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D, SS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RD01MUS1 data-key-5=%20% data-key-6=MOS-MIT-RD01MUS1_101%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Mitsubishi%20%RD01MUS1%20%LDMOSFET%20%in%20%a%20%SOT%20%89%20%package%20%based%20%on%20%the%20%extraction%20%of%20%MET%20%model.%20%The%20%model%20%is%20%intended%20%to%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%3GHz.%20%%20%The%20%MOS_MIT_RD01MUS1_101%20%is%20%the%20%updated%20%version%20%of%20%the%20%MOS_MIT_RD01MUS1%20%with%20%improved%20%IV%20%fitting%20%and%20%large%20%signal%20%verifications. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Mitsubishi <td width="10%"> <a href=/models/Vendor/Mitsubishi/RD01MUS1.pdf target="blank">RD01MUS1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=453&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-MIT-RD01MUS1-101_datasheet.pdf" target="blank">MOS-MIT-RD01MUS1-101</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> 30.0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, IM </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RD07MUS2B data-key-5=%20% data-key-6=The%20%MOSFET%20%MOS-MIT-RD07MUS2B%20%is%20%a%20%non-linear%20%MET%20%(Motorola%20%Electro%20%Thermal)%20%%20%model%20%for%20%the%20%Mitsubishi%20%RD07MUS2B%20%LDMOSFET.%20%%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%VHF/UHF%20%power%20%amplifier%20%applications. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Mitsubishi <td width="10%"> <a href=/models/Vendor/Mitsubishi/RD07MUS2B.pdf target="blank">RD07MUS2B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=454&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-MIT-RD07MUS2B_datasheet.pdf" target="blank">MOS-MIT-RD07MUS2B</a> </td> <td width="10%"> </td> <td width="10%"> MOSFET </td> <td width="10%"> 3 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RD07MVS1 data-key-5=%20% data-key-6=The%20%MOSFET%20%MOS-MIT-RD07MVS1%20%is%20%a%20%non-linear%20%MET%20%(Motorola%20%Electro%20%Thermal)%20%%20%model%20%for%20%the%20%Mitsubishi%20%RD07MVS1%20%LDMOSFET%20%in%20%a%20%SLP%20%package%20%.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%2%20%GHz.%20%Users%20%specify%20%substrate%20%thickness,%20%relative%20%dielectric%20%constant,%20%conductor%20%thickness,%20%and%20%substrate%20%loss%20%tangent.%20%The%20%model%20%is%20%designed%20%for%20%VHF%20%and%20%UHF%20%power%20%amplifier%20%applications. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Mitsubishi <td width="10%"> <a href=/models/Vendor/Mitsubishi/RD07MVS1.pdf target="blank">RD07MVS1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=455&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-MIT-RD07MVS1_datasheet.pdf" target="blank">MOS-MIT-RD07MVS1</a> </td> <td width="10%"> SLP Package </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> 38.45 </td> <td width="10%"> </td> <td width="10%"> NL, SS, LP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RD12MVS1 data-key-5=%20% data-key-6=The%20%MOSFET%20%MOS-MIT-RD12MVS1%20%is%20%a%20%non-linear%20%MET%20%(Motorola%20%Electro%20%Thermal)%20%%20%model%20%for%20%the%20%Mitsubishi%20%RD12MVS1%20%MOSFET%20%in%20%a%20%SLP%20%package%20%.%20%The%20%temperature-scalable%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%1.3%20%GHz%20%on%20%10-mil%20%Rogers%20%4350B%20%or%20%similar%20%board%20%material.%20%The%20%MOSFET%20%is%20%designed%20%for%20%high%20%power%20%amplifier%20%applications%20%in%20%VHF%20%band%20%mobile%20%radio%20%sets. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Mitsubishi <td width="10%"> <a href=/models/Vendor/Mitsubishi/RD12MVS1.pdf target="blank">RD12MVS1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=456&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-MIT-RD12MVS1_datasheet.pdf" target="blank">MOS-MIT-RD12MVS1</a> </td> <td width="10%"> SLP Package </td> <td width="10%"> MOSFET </td> <td width="10%"> 1.3 </td> <td width="10%"> 38.0 </td> <td width="10%"> </td> <td width="10%"> NL, TS, LP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MGF4953A data-key-5=%20% data-key-6=The%20%HMT-MIT-MGF4953A-AMP%20%is%20%a%20%nonlinear%20%Angelov%20%model%20%for%20%the%20%Mitsubishi%20%MGF4953A%20%packaged%20%HEMT.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%22%20%GHz,%20%especially%20%for%20%use%20%in%20%super%20%low%20%noise%20%C%20%and%20%K%20%band%20%amplifier%20%design. data-key-8=HEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Mitsubishi <td width="10%"> <a href=/models/Vendor/Mitsubishi/MGF4953A.pdf target="blank">MGF4953A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=266&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHEMT%2FHMT-MIT-MGF4953A-AMP_datasheet.pdf" target="blank">HMT-MIT-MGF4953A-AMP</a> </td> <td width="10%"> Leadless Ceramic Package </td> <td width="10%"> HEMT </td> <td width="10%"> 22 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, NP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MGF4953A data-key-5=%20% data-key-6=The%20%HMT-MIT-MGF4953A-MIX%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%MITSUBISHI%20%MGF4953A%20%InGaAs%20%HEMT%20%in%20%leadless%20%ceramic%20%package.%20%%20%The%20%model%20%is%20%based%20%on%20%the%20%Angelov%20%model%20%and%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%21%20%GHz.%20%The%20%model%20%is%20%designed%20%for%20%use%20%in%20%Mixer%20%and%20%possibly%20%other%20%applications%20%that%20%operate%20%near%20%or%20%around%20%the%20%Vds%20%=%20%+/-%20%1V%20%bias%20%range. data-key-8=HEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Mitsubishi <td width="10%"> <a href=/models/Vendor/Mitsubishi/MGF4953A.pdf target="blank">MGF4953A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=267&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHEMT%2FHMT-MIT-MGF4953A-MIX_datasheet.pdf" target="blank">HMT-MIT-MGF4953A-MIX</a> </td> <td width="10%"> Leadless Ceramic Package </td> <td width="10%"> HEMT </td> <td width="10%"> 21 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MGF4953B data-key-5=%20% data-key-6=The%20%HMT-MIT-MGF4953B%20%is%20%a%20%nonlinear%20%AngelovC%20%model%20%for%20%the%20%Mitsubishi%20%MGF4953B%20%packaged%20%HEMTs.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%22%20%GHz,%20%especially%20%for%20%use%20%in%20%super%20%low%20%noise%20%K%20%band%20%amplifier%20%design.%20% data-key-8=HEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Mitsubishi <td width="10%"> <a href=/models/Vendor/Mitsubishi/MGF4953B.pdf target="blank">MGF4953B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=268&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHEMT%2FHMT-MIT-MGF4953B-AMP_datasheet.pdf" target="blank">HMT-MIT-MGF4953B-AMP</a> </td> <td width="10%"> Leadless Ceramic Package </td> <td width="10%"> HEMT </td> <td width="10%"> 22 </td> <td width="10%"> &lt; 10 </td> <td width="10%"> </td> <td width="10%"> NL, NP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RD01MUS2B data-key-5=%20% data-key-6=The%20%MOS-MIT-RD01MUS2B%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Mitsubishi%20%RD01MUS2B%20%1.6W%20%Silicon%20%MOSFET%20%power%20%transistor%20%based%20%on%20%the%20%extraction%20%of%20%the%20%Angelov%20%model%20%(additional%20%information%20%is%20%available%20%at%20%www.mitsubishielectric.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%high%20%frequency%20%Power%20%Amplifier%20%applications. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Mitsubishi <td width="10%"> <a href=/models/Vendor/Mitsubishi/RD01MUS2B.pdf target="blank">RD01MUS2B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=809&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-MIT-RD01MUS2B_datasheet.pdf" target="blank">MOS-MIT-RD01MUS2B</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> MOSFET </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RD07MUP2B data-key-5=%20% data-key-6=The%20%MOS-MIT-RD07MUP2B%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Mitsubishi%20%RD07MUP2B%20%7W%20%Silicon%20%MOSFET%20%power%20%transistor%20%based%20%on%20%the%20%extraction%20%of%20%the%20%MET%20%model%20%(additional%20%information%20%is%20%available%20%at%20%www.mitsubishielectric.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%high%20%frequency%20%Power%20%Amplifier%20%applications. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Mitsubishi <td width="10%"> <a href=/models/Vendor/Mitsubishi/RD07MUP2B.pdf target="blank">RD07MUP2B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=810&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-MIT-RD07MUP2B_datasheet.pdf" target="blank">MOS-MIT-RD07MUP2B</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> MOSFET </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MRF1513 data-key-5=%20% data-key-6=The%20%MOSFET%20%MOS-MOT-MRF1513%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%MOT%20%MRF1513%20%LDMOSFET%20%in%20%a%20%%20%case%20%style%20%466%20%.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%3%20%GHz.%20%The%20%model%20%is%20%designed%20%for%20%VHF%20%and%20%UHF%20%portable%20%power%20%amplifier%20%applications.%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Motorola <td width="10%"> <a href=/models/Vendor/Motorola/MRF1513.pdf target="blank">MRF1513</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=457&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-MOT-MRF1513_datasheet.pdf" target="blank">MOS-MOT-MRF1513</a> </td> <td width="10%"> Case 466 Package </td> <td width="10%"> MOSFET </td> <td width="10%"> 3 </td> <td width="10%"> 34.77 </td> <td width="10%"> </td> <td width="10%"> NL, LP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MRF1570 data-key-5=%20% data-key-6=The%20%MOSFET%20%MOS-MOT-MRF1570T1%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%MOT%20%MRF1570%20%LDMOSFET%20%in%20%a%20%%20%case%20%style%20%1366%20%.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%2%20%GHz.%20%The%20%model%20%is%20%designed%20%for%20%broadband%20%commercial%20%and%20%industrial%20%applications. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Motorola <td width="10%"> <a href=/models/Vendor/Motorola/MRF1570.pdf target="blank">MRF1570</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=458&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-MOT-MRF1570T1_datasheet.pdf" target="blank">MOS-MOT-MRF1570T1</a> </td> <td width="10%"> CS-1366 Paclage </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> 48.45 </td> <td width="10%"> </td> <td width="10%"> NL, LP </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BLM21P data-key-5=%20% data-key-6=The%20%FBD-MUR-0805-101%20%is%20%a%20%substrate%20%and%20%bias%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%BLM21PG%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a%20%temperature%20%of%20%25%20%C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/BLM21P.pdf target="blank">BLM21P</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=648&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-MUR-0805-101_datasheet.pdf" target="blank">FBD-MUR-0805-101</a> </td> <td width="10%"> 0805 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 22-330 Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BLM15EG data-key-5=%20% data-key-6=The%20%FBD-MUR-0402-002%20%is%20%a%20%substrate%20%and%20%bias%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%BLM15EG%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%pad%20%dimensions%20%and%20%temperature%20%are%20%model%20%input%20%parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%temperatures%20%from%20%25&#176;C%20%to%20%120&#176;C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/BLM15EG.pdf target="blank">BLM15EG</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=606&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-MUR-0402-002_datasheet.pdf" target="blank">FBD-MUR-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 120, 220 Ohm </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BLM15AG data-key-5=%20% data-key-6=The%20%FBD-MUR-0402-001%20%is%20%a%20%substrate%20%and%20%bias%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%BLM15AG%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%pad%20%dimensions%20%and%20%temperature%20%are%20%model%20%input%20%parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%temperatures%20%from%20%25&#176;C%20%to%20%120&#176;C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/BLM15AG.pdf target="blank">BLM15AG</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=607&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-MUR-0402-001_datasheet.pdf" target="blank">FBD-MUR-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 10-1000 Ohm </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LMTP33AA148 data-key-5=%20% data-key-6=The%20%TPX-MUR-LMTP33AA148-001%20%is%20%a%20%file-based%20%model%20%for%20%the%20%surface%20%mount%20%triplexer%20%chip%20%from%20%Murata.%20% The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20% board)%20%related%20%parasitic%20%effects.%20% data-key-8=Triplexer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LMTP33AA148.pdf target="blank">LMTP33AA148</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=608&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTriplexer%2FTPX-MUR-LMTP33AA148-001_datasheet.pdf" target="blank">TPX-MUR-LMTP33AA148-001</a> </td> <td width="10%"> Chip </td> <td width="10%"> Triplexer </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM219 data-key-5=%20% data-key-6=The%20%CAP-MUR-0805-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GRM219%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM219.pdf target="blank">GRM219</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=725&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0805-004_datasheet.pdf" target="blank">CAP-MUR-0805-004</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 18 </td> <td width="10%"> </td> <td width="10%"> 2.2 68 pF </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQP02T data-key-5=%20% data-key-6=The%20%IND-MUR-01005-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQP02T%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%width,%20%pad%20%length,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQP02T.pdf target="blank">LQP02T</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=742&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-01005-101_datasheet.pdf" target="blank">IND-MUR-01005-101</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.2 - 39 nH </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM022 data-key-5=%20% data-key-6=The%20%CAP-MUR-01005-201%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GRM022%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM022.pdf target="blank">GRM022</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=804&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-01005-201_datasheet.pdf" target="blank">CAP-MUR-01005-201</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 0.2-100 pF </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GJM022 data-key-5=%20% data-key-6=The%20%CAP-MUR-01005-203%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GJM022%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GJM022.pdf target="blank">GJM022</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=805&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-01005-203_datasheet.pdf" target="blank">CAP-MUR-01005-203</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.2-22 pF </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQP03HQ data-key-5=%20% data-key-6=The%20%IND-MUR-0201-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQP03TN%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQP03HQ.pdf target="blank">LQP03HQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=853&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-0201-002_datasheet.pdf" target="blank">IND-MUR-0201-002</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.6 nH - 150 nH </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM188R72A data-key-5=%20% data-key-6=The%20%CAP-MUR-0603-009%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%P/N%20%GRM188R72A%20%Chip%20%Monolithic Ceramic%20%Capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM188R72A.pdf target="blank">GRM188R72A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=908&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0603-009_datasheet.pdf" target="blank">CAP-MUR-0603-009</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 16 </td> <td width="10%"> </td> <td width="10%"> 220 - 100000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM32ER71J data-key-5=%20% data-key-6=The%20%CAP-MUR-1210-001%20%is%20%a%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GRM32ER71J106KA12L%20%surface mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM32ER71J.pdf target="blank">GRM32ER71J</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=909&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-1210-001_datasheet.pdf" target="blank">CAP-MUR-1210-001</a> </td> <td width="10%"> 1210 </td> <td width="10%"> Capacitor </td> <td width="10%"> 16 </td> <td width="10%"> </td> <td width="10%"> 10 uF </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQP02HQ data-key-5=%20% data-key-6=The%20%IND-MUR-01005-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%LQP02HQ%20%series%20%surface mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height, dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQP02HQ.pdf target="blank">LQP02HQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=918&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-01005-002_datasheet.pdf" target="blank">IND-MUR-01005-002</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.4 - 22 nH </td> <td width="10%"> SP, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM0335 data-key-5=%20% data-key-6=The%20%CAP-MUR-0201-302%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GRM0335%20%surface%20%mount chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM0335.pdf target="blank">GRM0335</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=921&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0201-302_datasheet.pdf" target="blank">CAP-MUR-0201-302</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 120 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GQM1555C data-key-5=%20% data-key-6=The%20%CAP-MUR-0402-005%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GQM1555C surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance range.%20%An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%configurations.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GQM1555C.pdf target="blank">GQM1555C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=1100&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0402-005_datasheet.pdf" target="blank">CAP-MUR-0402-005</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 47 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM022(X5R,X7R) data-key-5=%20% data-key-6=The%20%CAP-MUR-01005-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GRM022%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM022(X5R,X7R).pdf target="blank">GRM022(X5R,X7R)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=171&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-01005-002_datasheet.pdf" target="blank">CAP-MUR-01005-002</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 14 </td> <td width="10%"> </td> <td width="10%"> 100-10,000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GJM03 data-key-5=%20% data-key-6=The%20%CAP-MUR-0201-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%Technology%20%P/N%20%GJM033%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GJM03.pdf target="blank">GJM03</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=173&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0201-004_datasheet.pdf" target="blank">CAP-MUR-0201-004</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.2-33 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRP033 data-key-5=%20% data-key-6=The%20%CAP-MUR-0201-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GRP033%20%surface%20%mount chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single, substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRP033.pdf target="blank">GRP033</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=174&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0201-101_datasheet.pdf" target="blank">CAP-MUR-0201-101</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> 0 </td> <td width="10%"> 0.5 - 10,000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM155R71E data-key-5=%20% data-key-6=The%20%CAP-MUR-0402-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GRM155R71Exx%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM155R71E.pdf target="blank">GRM155R71E</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=178&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0402-003_datasheet.pdf" target="blank">CAP-MUR-0402-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 4.7 – 47 nF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GJM15 data-key-5=%20% data-key-6=The%20%CAP-MUR-0402-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GJM1555C1H%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GJM15.pdf target="blank">GJM15</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=179&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0402-004_datasheet.pdf" target="blank">CAP-MUR-0402-004</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 18 </td> <td width="10%"> </td> <td width="10%"> 0.1-20 pF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM1555C1H data-key-5=%20% data-key-6=The%20%CAP-MUR-0402-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%wit%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM1555C1H.pdf target="blank">GRM1555C1H</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=180&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0402-101_datasheet.pdf" target="blank">CAP-MUR-0402-101</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.2-1000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM155R71H data-key-5=%20% data-key-6=The%20%CAP-MUR-0402-102%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GRM155R71H%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM155R71H.pdf target="blank">GRM155R71H</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=181&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0402-102_datasheet.pdf" target="blank">CAP-MUR-0402-102</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 220-4700 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM188R71H data-key-5=%20% data-key-6=The%20%CAP-MUR-0603-005%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GRM188R71H%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM188R71H.pdf target="blank">GRM188R71H</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=183&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0603-005_datasheet.pdf" target="blank">CAP-MUR-0603-005</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> 220-100,000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GQM188 data-key-5=%20% data-key-6=The%20%CAP-MUR-0603-006%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GQM188%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GQM188.pdf target="blank">GQM188</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=184&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0603-006_datasheet.pdf" target="blank">CAP-MUR-0603-006</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.5 - 100 pF </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GQM188 data-key-5=%20% data-key-6=The%20%CAP-MUR-0603-008%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GQM1885C1H%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GQM188.pdf target="blank">GQM188</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=186&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0603-008_datasheet.pdf" target="blank">CAP-MUR-0603-008</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> 0.1-100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM1885C1H data-key-5=%20% data-key-6=The%20%CAP-MUR-0603-104%20%is%20%a%20%substrate%20%scalable%20%Global%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%cap%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM1885C1H.pdf target="blank">GRM1885C1H</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=187&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0603-104_datasheet.pdf" target="blank">CAP-MUR-0603-104</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 14 </td> <td width="10%"> </td> <td width="10%"> 1 - 2700 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GQM187 data-key-5=%20% data-key-6=The%20%CAP-MUR-0603-107%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GQM187%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GQM187.pdf target="blank">GQM187</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=188&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0603-107_datasheet.pdf" target="blank">CAP-MUR-0603-107</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 47 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM2165C2A data-key-5=%20% data-key-6=The%20%CAP-MUR-0805-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GRM2165C2A%20%(1-470pF)%20%and%20%GRM21BR72A%20%(560-1800pF)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM2165C2A.pdf target="blank">GRM2165C2A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=189&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0805-001_datasheet.pdf" target="blank">CAP-MUR-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 9 </td> <td width="10%"> 0 </td> <td width="10%"> 1 - 1800 pF </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GRM2165C2A data-key-5=%20% data-key-6=The%20%CAP-MUR-0805-001-S%20%family%20%are%20%substrate%20%scalable%20%models%20%for%20%0805%20%surface%20%mount%20%chip%20%capacitors%20%from%20%Murata%20%P/N%20%GRM2165C2A%20%(1-470pF),%20%GRM21BR72A%20%(560-1800pF).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model?%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%This%20%is%20%the%20%Select%20%version%20%of%20%the%20%CAP-MUR-0805-001%20%model%20%with%20%a%20%limited%20%part%20%value%20%range. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GRM2165C2A.pdf target="blank">GRM2165C2A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=190&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0805-001-S_datasheet.pdf" target="blank">CAP-MUR-0805-001-S</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 9 </td> <td width="10%"> </td> <td width="10%"> 10-470 pF </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GQM219 data-key-5=%20% data-key-6=The%20%CAP-MUR-0805-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GQM219%20%series%20%NP0%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GQM219.pdf target="blank">GQM219</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=192&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0805-003_datasheet.pdf" target="blank">CAP-MUR-0805-003</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 18 </td> <td width="10%"> </td> <td width="10%"> 0.2-100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=GQM22M data-key-5=%20% data-key-6=The%20%CAP-MUR-1111-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%GQM22M%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/GQM22M.pdf target="blank">GQM22M</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=193&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-1111-001_datasheet.pdf" target="blank">CAP-MUR-1111-001</a> </td> <td width="10%"> 1111 </td> <td width="10%"> Capacitor </td> <td width="10%"> 16 </td> <td width="10%"> </td> <td width="10%"> 0.5-100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SFELA10M7GAA0_B0 data-key-5=%20% data-key-6=The%20%BPF-MUR-SFELA10M7GAA0-001%20%is%20%a%20%file-based%20%model%20%for%20%the%20%SFELA10M7GAA0-B0%20%ceramic%20%band-pass%20%surface%20%mount%20%filter%20%from%20%Murata.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications.%20%The%20%model%20%data%20%is%20%obtained%20%on%20%a%20%62mil%20%FR4%20%thick%20%substrate.%20% data-key-8=BandPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/SFELA10M7GAA0_B0.pdf target="blank">SFELA10M7GAA0_B0</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=75&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBandPassFilter%2FBPF-MUR-SFELA10M7GAA0-001_datasheet.pdf" target="blank">BPF-MUR-SFELA10M7GAA0-001</a> </td> <td width="10%"> Ceramic </td> <td width="10%"> BandPassFilter </td> <td width="10%"> .2 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BLM18HG102SN1 data-key-5=%20% data-key-6=The%20%FBD-MUR-0603-001%20%is%20%a%20%substrate%20%and%20%bias%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%BLM18HG102SN1%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a%20%temperature%20%of%20%25%20%C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/BLM18HG102SN1.pdf target="blank">BLM18HG102SN1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=247&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-MUR-0603-001_datasheet.pdf" target="blank">FBD-MUR-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> 1000 Ohms </td> <td width="10%"> SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BLM18A data-key-5=%20% data-key-6=The%20%FBD-MUR-0603-002%20%is%20%a%20%substrate%20%and%20%bias%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%BLM18AG121SN1D%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a%20%temperature%20%of%20%25%20%C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/BLM18A.pdf target="blank">BLM18A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=248&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-MUR-0603-002_datasheet.pdf" target="blank">FBD-MUR-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 120 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BLM31P data-key-5=%20% data-key-6=The%20%FBD-MUR-1206-001%20%is%20%a%20%substrate%20%and%20%bias%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%BLM31PG%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a%20%temperature%20%of%20%25%20%C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/BLM31P.pdf target="blank">BLM31P</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=250&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-MUR-1206-001_datasheet.pdf" target="blank">FBD-MUR-1206-001</a> </td> <td width="10%"> 1206 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 33-600 Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BLM41P data-key-5=%20% data-key-6=The%20%FBD-MUR-1806-001%20%is%20%a%20%substrate%20%and%20%bias%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%BLM41PG%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%pad%20%dimensions%20%and%20%temperature%20%are%20%model%20%input%20%parameters%20%(note:%20%temperature%20%parameter%20%only%20%scalable%20%for%20%the%20%60%20%ohm%20%part).%20%Accurate%20%impedance%20%and%20%Sparameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a%20%temperature%20%of%20%25%20%C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/BLM41P.pdf target="blank">BLM41P</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=251&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-MUR-1806-001_datasheet.pdf" target="blank">FBD-MUR-1806-001</a> </td> <td width="10%"> 1806 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 60-1000 Ohms </td> <td width="10%"> SS, PS, VS, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQP03TN data-key-5=%20% data-key-6=The%20%IND-MUR-0201-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQP03T%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQP03TN.pdf target="blank">LQP03TN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=373&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-0201-001_datasheet.pdf" target="blank">IND-MUR-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.6-56 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQP03TN data-key-5=%20% data-key-6=The%20%IND-MUR-0201-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQP03T%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQP03TN.pdf target="blank">LQP03TN</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=374&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-0201-101_datasheet.pdf" target="blank">IND-MUR-0201-101</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.4-56 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQW04A data-key-5=%20% data-key-6=The%20%IND-MUR-0301-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%%20%P/N%20%LQW04%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%pad%20%metal%20%thickness,%20%statistical%20%distribution%20%scale%20%factor,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQW04A.pdf target="blank">LQW04A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=375&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-0301-001_datasheet.pdf" target="blank">IND-MUR-0301-001</a> </td> <td width="10%"> 0301 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.1-33 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQW15AN_00 data-key-5=%20% data-key-6=The%20%IND-MUR-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQW15A%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQW15AN_00.pdf target="blank">LQW15AN_00</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=376&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-0402-001_datasheet.pdf" target="blank">IND-MUR-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.5 – 82 nH </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQP15M data-key-5=%20% data-key-6=The%20%IND-MUR-0402-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQP15M%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQP15M.pdf target="blank">LQP15M</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=377&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-0402-002_datasheet.pdf" target="blank">IND-MUR-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1-33 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQG15HS data-key-5=%20% data-key-6=The%20%IND-MUR-0402-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQG15H%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%width,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQG15HS.pdf target="blank">LQG15HS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=378&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-0402-003_datasheet.pdf" target="blank">IND-MUR-0402-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1-270 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQP18M data-key-5=%20% data-key-6=The%20%IND-MUR-0603-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQP18M%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%length,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQP18M.pdf target="blank">LQP18M</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=380&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-0603-002_datasheet.pdf" target="blank">IND-MUR-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1.3-100 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQG18 data-key-5=%20% data-key-6=The%20%IND-MUR-0603-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQG18H%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQG18.pdf target="blank">LQG18</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=381&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-0603-003_datasheet.pdf" target="blank">IND-MUR-0603-003</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 22 </td> <td width="10%"> </td> <td width="10%"> 1.2-100 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQW18AN_00 data-key-5=%20% data-key-6=The%20%IND-MUR-0603-201%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQW18A%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQW18AN_00.pdf target="blank">LQW18AN_00</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=383&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-0603-201_datasheet.pdf" target="blank">IND-MUR-0603-201</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 2. 2- 470 nH </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DRR030KE1R2 data-key-5=%20% data-key-6=The%20%RSN-MUR-1200-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%DRR030KE1R225TC%20%Murata%20%resonator.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=Resonator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/DRR030KE1R2.pdf target="blank">DRR030KE1R2</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=532&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResonator%2FRSN-MUR-1200-001_datasheet.pdf" target="blank">RSN-MUR-1200-001</a> </td> <td width="10%"> </td> <td width="10%"> Resonator </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DRR0201G350 data-key-5=%20% data-key-6=The%20%RSN-MUR-1350-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%DRR0201G350KTC01R%20%Murata%20%resonator.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters data-key-8=Resonator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/DRR0201G350.pdf target="blank">DRR0201G350</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=533&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResonator%2FRSN-MUR-1350-001_datasheet.pdf" target="blank">RSN-MUR-1350-001</a> </td> <td width="10%"> </td> <td width="10%"> Resonator </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DRR02011G45 data-key-5=%20% data-key-6=The%20%RSN-MUR-1450-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%DRR02011G450KTC01R9%20%Murata%20%resonator.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=Resonator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/DRR02011G45.pdf target="blank">DRR02011G45</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=534&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResonator%2FRSN-MUR-1450-001_datasheet.pdf" target="blank">RSN-MUR-1450-001</a> </td> <td width="10%"> </td> <td width="10%"> Resonator </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DRR0204G100 data-key-5=%20% data-key-6=The%20%RSN-MUR-4100-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%DRR0204G100PTC01R%20%Murata%20%resonator.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters data-key-8=Resonator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/DRR0204G100.pdf target="blank">DRR0204G100</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=535&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResonator%2FRSN-MUR-4100-001_datasheet.pdf" target="blank">RSN-MUR-4100-001</a> </td> <td width="10%"> </td> <td width="10%"> Resonator </td> <td width="10%"> 5 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DRM020KER93 data-key-5=%20% data-key-6=The%20%RSN-MUR-930-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%DRM020KER930TCTX%20%Murata%20%resonator.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Resonator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/DRM020KER93.pdf target="blank">DRM020KER93</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=536&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResonator%2FRSN-MUR-930-001_datasheet.pdf" target="blank">RSN-MUR-930-001</a> </td> <td width="10%"> </td> <td width="10%"> Resonator </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BBSC_939_113_733_510 data-key-5=%20% data-key-6=The%20%CAPSP-MUR-0201-002%20%is%20%a%20%S-parameter%20%data%20%model,%20%valid%20%only%20%on%20%6.6mil%20%thick%20%Rogers%20%4350B%20%or%20%similar%20%board%20%type,%20%for%20%the%20%MURiA%20%P/N%20%UBSC-935-151-723-510%20%ultra-broadband%20%silicon%20%capacitor.%20%Breakdown%20%Voltage%20%=%20%30V,%20%Thickness=400um,%20%and%20%Assembly=Surface%20%Mount.%20%(additional%20%information%20%is%20%available%20%at%20%www.MURia.com).These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6mil%20%thick%20%Rogers%20%4350B%20%substrate.%20%%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%microstrip%20%applications%20%and%20%account%20%for%20%the%20%parasitic%20%effects%20%attributed%20%to%20%6.6mil%20%thick%20%Rogers%20%4350B.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/BBSC_939_113_733_510.pdf target="blank">BBSC_939_113_733_510</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=1210&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAPSP-MUR-0201-002_datasheet.pdf" target="blank">CAPSP-MUR-0201-002</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 10 nF, BV30, 400um </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BBSC_939_113_424_610 data-key-5=%20% data-key-6=The%20%CAPSP-MUR-0402-001%20%is%20%a%20%S-parameter%20%data%20%model,%20%valid%20%only%20%on%20%10mil%20%thick%20%Rogers%20%4350B%20%or%20%similar%20%board%20%type,%20%for%20%the%20%MURiA%20%P/N%20%UBSC-935-151-424-610%20%ultra-broadband%20%silicon%20%capacitor.%20%Breakdown%20%Voltage%20%=%20%11V,%20%Thickness=400um,%20%and%20%Assembly=Surface%20%Mount.%20%(additional%20%information%20%is%20%available%20%at%20%www.MURia.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%10mil%20%thick%20%Rogers%20%4350B%20%substrate.%20%%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%microstrip%20%applications%20%and%20%account%20%for%20%the%20%parasitic%20%effects%20%attributed%20%to%20%10mil%20%thick%20%Rogers%20%4350B.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/BBSC_939_113_424_610.pdf target="blank">BBSC_939_113_424_610</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=1211&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAPSP-MUR-0402-001_datasheet.pdf" target="blank">CAPSP-MUR-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 100 nF, BV11, 400um </td> <td width="10%"> SP </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XBSC_939_118_492_510-xxS data-key-5=%20% data-key-6=The%20%CAP-MUR-0201M-003%20%is%20%a%20%Microwave%20%Global%20%Model™%20%for%20%the%20%MURiA%20%P/N%20%XBSC%20%941.000.012.001%20%ultrabroadband%20%silicon%20%capacitor.%20%Breakdown%20%Voltage%20%=%20%11V,%20%Thickness=100um,%20%and%20%Assembly=Surface%20%Mount.%20%(additional%20%information%20%is%20%available%20%at%20%www.MURia.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Component%20%tolerance%20%is%20%the%20%model%20%input%20%parameter.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/XBSC_939_118_492_510-xxS.pdf target="blank">XBSC_939_118_492_510-xxS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=1212&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0201M-003_datasheet.pdf" target="blank">CAP-MUR-0201M-003</a> </td> <td width="10%"> 0201M </td> <td width="10%"> Capacitor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 10 nF, BV11, 100um </td> <td width="10%"> BB, SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=XBSC_939_118_492_510-xxS data-key-5=%20% data-key-6=The%20%CAP-MUR-0201M-103%20%is%20%a%20%Microwave%20%Global%20%Model™%20%for%20%the%20%MURiA%20%P/N%20%XBSC%20%941.000.012.001%20%ultrabroadband%20%silicon%20%capacitor.%20%Breakdown%20%Voltage%20%=%20%11V,%20%Thickness=100um,%20%and%20%Assembly=Surface%20%Mount.%20%(additional%20%information%20%is%20%available%20%at%20%www.MURia.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%coplanar%20%waveguide%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Component%20%tolerance%20%is%20%the%20%model%20%input%20%parameter.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/XBSC_939_118_492_510-xxS.pdf target="blank">XBSC_939_118_492_510-xxS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=1213&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0201M-103_datasheet.pdf" target="blank">CAP-MUR-0201M-103</a> </td> <td width="10%"> 0201M </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> 10 nF, BV11, 100um </td> <td width="10%"> BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LQP02TQ data-key-5=%20% data-key-6=The%20%IND-MUR-01005-103%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Murata%20%P/N%20%LQP02TQ%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.murata.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Murata <td width="10%"> <a href=/models/Vendor/Murata/LQP02TQ.pdf target="blank">LQP02TQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=1483&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-MUR-01005-103_datasheet.pdf" target="blank">IND-MUR-01005-103</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Inductor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 0.4 – 22 nH </td> <td width="10%"> BB, SS . PS, VS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BFQ540 data-key-5=%20% data-key-6=The%20%BJT-NXP-BFQ540%20%is%20%a%20%non-linear%20%substrate-scalable%20%BJT%20%model%20%for%20%the%20%NXP%20%BFQ540%20%NPN%20%wideband%20%transistor%20%in%20%a%20%SOT-89%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%The%20%BJT%20%model%20%was%20%developed%20%from%20%measured%20%data%20%with%20%the%20%transistor%20%in%20%a%20%common%20%emitter%20%configuration.%20%Users%20%specify%20%substrate%20%thickness,%20%relative%20%dielectric%20%constant,%20%conductor%20%thickness,%20%and%20%substrate%20%loss%20%tangent.%20%This%20%device%20%is%20%designed%20%for%20%VHF,%20%UHF%20%and%20%CATV%20%amplifier%20%applications.%20% data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BFQ540.pdf target="blank">BFQ540</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=64&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-NXP-BFQ540_datasheet.pdf" target="blank">BJT-NXP-BFQ540</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> NPNBJT </td> <td width="10%"> 6 </td> <td width="10%"> 17 dBm </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BFS505 data-key-5=%20% data-key-6=The%20%BJT-NXP-BFS505%20%is%20%a%20%non-linear%20%Gummel-Poon%20%model%20%for%20%the%20%NXP%20%BFS505%20%NPN%20%BJT%20%in%20%a%20%SOT323%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%substrate%20%thickness,%20%relative%20%dielectric%20%constant,%20%conductor%20%thickness,%20%substrate%20%loss%20%tangent,%20%and%20%device%20%operating%20%temperature.%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%RF%20%portable%20%%20%communication%20%equipment.%20% data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BFS505.pdf target="blank">BFS505</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=65&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-NXP-BFS505_datasheet.pdf" target="blank">BJT-NXP-BFS505</a> </td> <td width="10%"> SOT-323 </td> <td width="10%"> NPNBJT </td> <td width="10%"> 10 </td> <td width="10%"> 4 dBm </td> <td width="10%"> </td> <td width="10%"> NL, SS, IM, NP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BFS520 data-key-5=%20% data-key-6=The%20%BJT-NXP-BFS520%20%is%20%a%20%non-linear%20%Gummel-Pool%20%model%20%for%20%the%20%NXP%20%BFS520%20%NPN%20%BJT%20%in%20%a%20%SOT323%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%thickness,%20%relative%20%dielectric%20%constant,%20%conductor%20%thickness,%20%and%20%substrate%20%loss%20%tangent.%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%wideband%20%applications%20%such%20%as%20%TV%20%tuners%20%and%20%cellular%20%. data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BFS520.pdf target="blank">BFS520</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=66&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-NXP-BFS520_datasheet.pdf" target="blank">BJT-NXP-BFS520</a> </td> <td width="10%"> SOT-323 </td> <td width="10%"> NPNBJT </td> <td width="10%"> 6 </td> <td width="10%"> 17 dBm </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BFS540 data-key-5=%20% data-key-6=The%20%BJT-NXP-BFS540%20%is%20%a%20%non-linear%20%Gummel-Poon%20%model%20%for%20%the%20%NXP%20%BFS540%20%NPN%20%BJT%20%in%20%a%20%SOT323%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20% data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BFS540.pdf target="blank">BFS540</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=67&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-NXP-BFS540_datasheet.pdf" target="blank">BJT-NXP-BFS540</a> </td> <td width="10%"> SOT-323 </td> <td width="10%"> NPNBJT </td> <td width="10%"> 10 </td> <td width="10%"> 21 dBm </td> <td width="10%"> </td> <td width="10%"> NL, SS, LP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PBR941 data-key-5=%20% data-key-6=The%20%BJT-NXP-PBR941%20%is%20%a%20%substrate%20%specific%20%Gummel-Poon%20%model%20%for%20%the%20%NXP%20%PBR941%20%single%20%NPN%20%BJT%20%in%20%a%20%SOT-23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%communication%20%and%20%instrumentation%20%systems.%20% data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/PBR941.pdf target="blank">PBR941</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=68&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-NXP-PBR941_datasheet.pdf" target="blank">BJT-NXP-PBR941</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> NPNBJT </td> <td width="10%"> 3 </td> <td width="10%"> 8 dBm </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BF1211 data-key-5=%20% data-key-6=The%20%DGMOS-NXP-BF1211%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%NXP%20%n-channel%20%dual-gate%20%packaged%20%MOSFET.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%gain%20%controlled%20%low%20%noise%20%VHF%20%and%20%UHF%20%amplifiers%20%for%20%5V%20%digital%20%and%20%analog%20%television%20%tuner%20%applications.%20%The%20%model%20%is%20%temperature%20%dependent%20%and%20%is%20%validated%20%from%20%250C%20%to%20%850C.%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BF1211.pdf target="blank">BF1211</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=234&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FDGMOS-NXP-BF1211_datasheet.pdf" target="blank">DGMOS-NXP-BF1211</a> </td> <td width="10%"> SOT-143B </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> &lt;10 dBm </td> <td width="10%"> </td> <td width="10%"> NL, TS, NP </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BF1211 data-key-5=%20% data-key-6=The%20%DGMOS-PHL-BF1211-S%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%NXP%20%(formerly%20%Philips)%20%n-channel%20%dual-gate packaged%20%MOSFET.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%gain%20%controlled%20%low%20%noise%20%VHF%20%and%20%UHF%20%amplifiers for%20%5V%20%digital%20%and%20%analog%20%television%20%tuner%20%applications.%20%The%20%model%20%is%20%temperature%20%dependent%20%and%20%is validated%20%from%20%250C%20%to%20%850C. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BF1211.pdf target="blank">BF1211</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=235&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FDGMOS-NXP-BF1211-S_datasheet.pdf" target="blank">DGMOS-NXP-BF1211-S</a> </td> <td width="10%"> SOT-143B </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> &lt;10 dBm </td> <td width="10%"> </td> <td width="10%"> NL, TS, NP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BF1212 data-key-5=%20% data-key-6=The%20%DGMOS-NXP-BF1212%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%NXP%20%n-channel%20%dual-gate%20%packaged%20%MOSFET.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%gain%20%controlled%20%low%20%noise%20%VHF%20%and%20%UHF%20%amplifiers%20%for%20%5V%20%digital%20%and%20%analog%20%television%20%tuner%20%applications.%20%The%20%model%20%is%20%temperature%20%dependent%20%and%20%is%20%validated%20%from%20%250C%20%to%20%850C. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BF1212.pdf target="blank">BF1212</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=236&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FDGMOS-NXP-BF1212_datasheet.pdf" target="blank">DGMOS-NXP-BF1212</a> </td> <td width="10%"> SOT-143B </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> &lt;10 dBm </td> <td width="10%"> </td> <td width="10%"> NL, TS, NP </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BF1212 data-key-5=%20% data-key-6=The%20%DGMOS-PHL-BF1212-S%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%NXP%20%(formerly%20%Philips)%20%n-channel%20%dual-gate packaged%20%MOSFET.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%gain%20%controlled%20%low%20%noise%20%VHF%20%and%20%UHF%20%amplifiers for%20%5V%20%digital%20%and%20%analog%20%television%20%tuner%20%applications.%20%The%20%model%20%is%20%temperature%20%dependent%20%and is%20%validated%20%from%20%250C%20%to%20%850C. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BF1212.pdf target="blank">BF1212</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=237&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FDGMOS-NXP-BF1212-S_datasheet.pdf" target="blank">DGMOS-NXP-BF1212-S</a> </td> <td width="10%"> SOT-143B </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> &lt;10 dBm </td> <td width="10%"> </td> <td width="10%"> NL, TS, NP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BLF542 data-key-5=%20% data-key-6=The%20%MOS-NXP-BLF542%20%is%20%a%20%nonlinear%20%Curtice%20%Modelithics%20%Cree%20%(CMC)%20%LDMOS%20%model%20%for%20%the%20%NXP%20%(formerly%20%Philips)%20%BLF542,%20%a%20%packaged%20%N-Channel%20%enhancement%20%model%20%vertical%20%D-MOS%20%power%20%transis%20%tor.%20%The%20%model%20%is%20%intended%20%for%20%large%20%signal%20%amplifier%20%applications%20%in%20%the%20%UHF%20%frequency%20%range.%20%%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BLF542.pdf target="blank">BLF542</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=463&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-NXP-BLF542_datasheet.pdf" target="blank">MOS-NXP-BLF542</a> </td> <td width="10%"> SOT-171A </td> <td width="10%"> MOSFET </td> <td width="10%"> 1 </td> <td width="10%"> 36.98 dBm </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BLF548 data-key-5=%20% data-key-6=The%20%MOSFET%20%MOS-NXP-BLF548%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%the%20%Cree-Curtice-Modelithics%20%(CMC)%20%model%20%(see%20%page%20%8)%20%for%20%the%20%%20%NXP%20%(formerly%20%Philips)%20%BLF548%20%VDMOSFET.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%0.8%20%GHz.%20%%20%The%20%model%20%is%20%designed%20%for%20%large%20%signal%20%amplifier%20%application%20%in%20%the%20%UHF%20%frequency%20%range.%20%%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BLF548.pdf target="blank">BLF548</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=464&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-NXP-BLF548_datasheet.pdf" target="blank">MOS-NXP-BLF548</a> </td> <td width="10%"> SOT-262A2 </td> <td width="10%"> MOSFET </td> <td width="10%"> .8 </td> <td width="10%"> 48.75 dBm </td> <td width="10%"> </td> <td width="10%"> NL, LP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BF861B data-key-5=%20% data-key-6=The%20%JFT-PHL-BF861B%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%NXP%20%(formerly%20%Philips)%20%BF861B%20%N%20%Channel%20%JFET%20%in%20%a%20%SOT23%20%package%20%based%20%on%20%the%20%extraction%20%of%20%the%20%Scichman%20%and%20%Hodges%20%format%20%.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%500%20%MHz.%20%The%20%model%20%is%20%designed%20%for%20%use%20%in%20%pre-amplifiers%20%for%20%AM%20%tuners%20%in%20%car%20%radios.%20% data-key-8=JFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BF861B.pdf target="blank">BF861B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=415&amp;returnUrl=%2Fmodels%2Fdatasheet%2FJFET%2FJFT-NXP-BF861B_datasheet.pdf" target="blank">JFT-NXP-BF861B</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> JFET </td> <td width="10%"> .5 </td> <td width="10%"> 0 dBm </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BF862 data-key-5=%20% data-key-6=The%20%JFET_PHL_BF862%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%NXP%20%(formerly%20%Philips)%20%n-channel%20%JFET%20%BF862.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%2%20%GHz.%20%The%20%device%20%is%20%designed%20%for%20%broadband%20%commercial%20%and%20%industrial%20%applications,%20%especially%20%for%20%preamplifiers%20%in%20%AM%20%car%20%radio%20%design.%20% data-key-8=JFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> NXP <td width="10%"> <a href=/models/Vendor/NXP/BF862.pdf target="blank">BF862</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=416&amp;returnUrl=%2Fmodels%2Fdatasheet%2FJFET%2FJFT-NXP-BF862_datasheet.pdf" target="blank">JFT-NXP-BF862</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> JFET </td> <td width="10%"> 2.5 </td> <td width="10%"> 0 dBm </td> <td width="10%"> </td> <td width="10%"> NL, NP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MMBT3904LT1 data-key-5=%20% data-key-6=The%20%BJT-ONS-MMBT3904LT1%20%is%20%a%20%non-linear%20%Gummel-Poon%20%model%20%for%20%the%20%Onsemi%20%MMBT3904LT1%20%NPN%20%BJT%20%in%20%a%20%SOT23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%40%20%MHz.%20% data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> On_Semiconductor <td width="10%"> <a href=/models/Vendor/On_Semiconductor/MMBT3904LT1.pdf target="blank">MMBT3904LT1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=611&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-ONS-MMBT3904LT1_datasheet.pdf" target="blank">BJT-ONS-MMBT3904LT1</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> NPNBJT </td> <td width="10%"> </td> <td width="10%"> 0 </td> <td width="10%"> </td> <td width="10%"> NL,TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MMBFU310LT1 data-key-5=%20% data-key-6=The%20%JFT_ONS_MMBFU310LT1%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Onsemi%20%MMBFU310LT1%20%N%20%Channel%20%JFET%20%in%20%a%20%SOT23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%drain%20%current,%20%drain%20%voltage%20%and%20%temperature%20%for%20%the%20%bias%20%model%20%and%20%drain%20%current%20%for%20%the%20%phase%20%noise%20%model.%20% data-key-8=JFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> On_Semiconductor <td width="10%"> <a href=/models/Vendor/On_Semiconductor/MMBFU310LT1.pdf target="blank">MMBFU310LT1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=612&amp;returnUrl=%2Fmodels%2Fdatasheet%2FJFET%2FJFT-ONS-MMBFU310LT1_datasheet.pdf" target="blank">JFT-ONS-MMBFU310LT1</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> JFET </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS, NP, FL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MMBD301LT1 data-key-5=%20% data-key-6=The%20%SKD-ONS-ST23-001%20%is%20%a%20%substrate%20%scalable%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%On%20%Semiconductor%20%MMDB301LT1%20%single%20%Schottky%20%diode%20%in%20%a%20%SOT23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> On_Semiconductor <td width="10%"> <a href=/models/Vendor/On_Semiconductor/MMBD301LT1.pdf target="blank">MMBD301LT1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=613&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-ONS-ST23-001_datasheet.pdf" target="blank">SKD-ONS-ST23-001</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MBD330DWT1 data-key-5=%20% data-key-6=The%20%SKD-ONS-T363-001%20%is%20%a%20%substrate%20%scalable%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%On%20%Semiconductor%20%MBD330DWT1%20%single%20%Schottky%20%diode%20%in%20%a%20%SOT363%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%high%20%frequency%20%UHF%20%and%20%VHF%20%detector%20%applications. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> On_Semiconductor <td width="10%"> <a href=/models/Vendor/On_Semiconductor/MBD330DWT1.pdf target="blank">MBD330DWT1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=614&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-ONS-T363-001_datasheet.pdf" target="blank">SKD-ONS-T363-001</a> </td> <td width="10%"> SOT-363 </td> <td width="10%"> Schottky </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ERJ2GE0R00X data-key-5=%20% data-key-6=The%20%RES-PAN-ERJ2-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Panasonic%20%P/N%20%ERJ2GE0R00X%20%surface%20%mount%20%chip%20%resistor%20%(additional%20%information%20%is%20%available%20%at%20%www.panasonic.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Panasonic <td width="10%"> <a href=/models/Vendor/Panasonic/ERJ2GE0R00X.pdf target="blank">ERJ2GE0R00X</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=524&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-PAN-ERJ2-001_datasheet.pdf" target="blank">RES-PAN-ERJ2-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0 Ohm </td> <td width="10%"> SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ELJRG data-key-5=%20% data-key-6=The%20%IND-PAN-0201-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Panasonic%20%P/N%20%ELJRG%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.panasonic.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Panasonic <td width="10%"> <a href=/models/Vendor/Panasonic/ELJRG.pdf target="blank">ELJRG</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=384&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PAN-0201-001_datasheet.pdf" target="blank">IND-PAN-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1 - 27 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ELJRF data-key-5=%20% data-key-6=The%20%IND-PAN-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Panasonic%20%P/N%20%ELJRF%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.panasonic.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Panasonic <td width="10%"> <a href=/models/Vendor/Panasonic/ELJRF.pdf target="blank">ELJRF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=385&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PAN-0402-001_datasheet.pdf" target="blank">IND-PAN-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1.0 - 100 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ELJRE data-key-5=%20% data-key-6=The%20%IND-PAN-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Panasonic%20%P/N%20%ELJRE%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.panasonic.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Panasonic <td width="10%"> <a href=/models/Vendor/Panasonic/ELJRE.pdf target="blank">ELJRE</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=386&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PAN-0603-001_datasheet.pdf" target="blank">IND-PAN-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.5-100 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0201BB104 data-key-5=%20% data-key-6=The%20%CAP-PPI-0201BB-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%0201BB%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=http://passiveplus.com/pdf/PPI-0201BB104.DATASHEET.pdf target="blank">0201BB104</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=194&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PPI-0201BB-001_datasheet.pdf" target="blank">CAP-PPI-0201BB-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 65 </td> <td width="10%"> </td> <td width="10%"> 0.1 &#160;uF </td> <td width="10%"> SS, PS, BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0201N-ultra-low-ESR data-key-5=%20% data-key-6=The%20%CAP-PPI-0201N-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%0201N%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%This%20%model%20%has%20%been%20%developed%20%using%20%parts%20%mounted%20%in%20%vertical%20%orientation.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=http://passiveplus.com/pdf/PPI-0201N.DATASHEET.pdf target="blank">0201N-ultra-low-ESR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=195&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PPI-0201N-001_datasheet.pdf" target="blank">CAP-PPI-0201N-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0402N-ultra-low-ESR data-key-5=%20% data-key-6=The%20%CAP-PPI-0402N-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%0402N%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.This%20%model%20%has%20%been%20%developed%20%using%20%parts%20%mounted%20%in%20%horizontal%20%orientation. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=http://passiveplus.com/pdf/PPI-0402N.DATASHEET.pdf target="blank">0402N-ultra-low-ESR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=196&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PPI-0402N-001_datasheet.pdf" target="blank">CAP-PPI-0402N-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 33 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0505C data-key-5=%20% data-key-6=The%20%CAP-PPI-0505C-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%0505C%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=http://passiveplus.com/pdf/PPI-0505CP.DATASHEET.pdf target="blank">0505C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=197&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PPI-0505C-001_datasheet.pdf" target="blank">CAP-PPI-0505C-001</a> </td> <td width="10%"> 0505 </td> <td width="10%"> Capacitor </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> 0.1-1000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1111C data-key-5=%20% data-key-6=The%20%CAP-PPI-1111C-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%1111C%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=http://passiveplus.com/pdf/PPI-1111CP.DATASHEET.pdf target="blank">1111C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=200&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PPI-1111C-002_datasheet.pdf" target="blank">CAP-PPI-1111C-002</a> </td> <td width="10%"> 1111 </td> <td width="10%"> Capacitor </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> 0.1-10,000 pF </td> <td width="10%"> SS, VS, PS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=01005BB104 data-key-5=%20% data-key-6=The%20%CAP-PPI-01005BB-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%01005BB104%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%This%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=http://passiveplus.com/pdf/PPI-01005BB104.DATASHEET.pdf target="blank">01005BB104</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=615&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PPI-01005BB-001_datasheet.pdf" target="blank">CAP-PPI-01005BB-001</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 65 </td> <td width="10%"> </td> <td width="10%"> 0.1 uF </td> <td width="10%"> SS, PS, BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R35-1209BB data-key-5=%20% data-key-6=The%20%RES-PPI-1209BB-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%R35-1209BB%20%R2%20%(Full%20%Pad)%20%flip%20%chip%20%resistor%20%family(additional%20%information%20%is%20%available%20%at%20%https://www.passiveplus.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(orprinted%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=/models/Vendor/PPI/R35-1209BB.pdf target="blank">R35-1209BB</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=1190&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-PPI-1209BB-001_datasheet.pdf" target="blank">RES-PPI-1209BB-001</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Resistor </td> <td width="10%"> 60 </td> <td width="10%"> </td> <td width="10%"> 50 and 100 Ohm </td> <td width="10%"> 3D, BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R35-2010BB data-key-5=%20% data-key-6=The%20%RES-PPI-2010BB-001%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%ANSYS&#174;%20%HFSSTM%20%for%20%the%20%Passive%20%Plus%20%P/N%20%R35-2010BBxxR00FR1QE%20%%20%surface%20%mount%20%chip%20%resistor%20%(additional%20%information%20%is%20%available%20%at%20%Passive%20%Plus).%20%The%20%models%20%are%20%for%20%use%20%in%20%3D%20%simulations%20%with%20%microstrip%20%applications.%20%The%20%models%20%are%20%validated%20%with%20%measured%20%single-substrate%20%S-Parameters.%20%%20%3D%20%geometry%20%models%20%are%20%well%20%suited%20%to%20%capture%20%coupling%20%or%20%close%20%proximity%20%effects%20%of%20%components%20%with%20%their%20%environment%20%that%20%would%20%not%20%be%20%possible%20%with%20%equivalent%20%circuit%20%models. %20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=/models/Vendor/PPI/R35-2010BB.pdf target="blank">R35-2010BB</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=1191&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-PPI-2010BB-001_datasheet.pdf" target="blank">RES-PPI-2010BB-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Resistor </td> <td width="10%"> 60 </td> <td width="10%"> </td> <td width="10%"> 50 and 100 Ohm </td> <td width="10%"> 3D, BB, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0708N data-key-5=%20% data-key-6=The%20%CAP-PPI-0708N-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%0708N surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%The%20%models are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=http://passiveplus.com/pdf/PPI-0708N.DATASHEET.pdf target="blank">0708N</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=1007&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PPI-0708N-001_datasheet.pdf" target="blank">CAP-PPI-0708N-001</a> </td> <td width="10%"> 0708 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 1 - 100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0603N-ultra-low-ESR data-key-5=%20% data-key-6=The%20%CAP-PPI-0603N-101%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%0603N surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%The%20%models are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=/models/Vendor/PPI/0603N-ultra-low-ESR.pdf target="blank">0603N-ultra-low-ESR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=1042&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PPI-0603N-101_datasheet.pdf" target="blank">CAP-PPI-0603N-101</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0805N-ultra-low-ESR data-key-5=%20% data-key-6=The%20%CAP-PPI-0805N-101%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%0805N surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%The%20%models are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=/models/Vendor/PPI/0805N-ultra-low-ESR.pdf target="blank">0805N-ultra-low-ESR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=1043&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PPI-0805N-101_datasheet.pdf" target="blank">CAP-PPI-0805N-101</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 220 pF </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1111N-ultra-low-ESR data-key-5=%20% data-key-6=The%20%CAP-PPI-1111N-101%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Passive%20%Plus%20%P/N%20%1111N surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.passiveplus.com).%20%The%20%models are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> PPI <td width="10%"> <a href=/models/Vendor/PPI/1111N-ultra-low-ESR.pdf target="blank">1111N-ultra-low-ESR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=36&amp;mdl=1044&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PPI-1111N-101_datasheet.pdf" target="blank">CAP-PPI-1111N-101</a> </td> <td width="10%"> 1111 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1.0 - 470 pF </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CCxxxTxxK240G5-C data-key-5=%20% data-key-6=The%20%IND-PIC-CONE-SHNT-001%20%is%20%the%20%Global%20%Model™%20%of%20%the%20%Piconics%20%CC110T47K240G5-C,%20%CC19T40K240G5C,%20%CC21T36K240G5-C,%20%CC45T47K240G5-C,%20%CC50T40K240G5-C,%20%and%20%CC82T44K240G5-C%20%conical%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%http://www.piconics.com).%20%The%20%S–Parameters%20%were%20%measured%20%with%20%the%20%part%20%mounted%20%on%20%5mil%20%Alumina%20%in%20%a%20%shunt%20%configuration.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%Port%20%3%20%is%20%provided%20%to%20%the%20%user%20%to%20%add%20%additional%20%components%20%between%20%ground%20%and%20%the%20%part.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Piconics <td width="10%"> <a href=/models/Vendor/Piconics/CCxxxTxxK240G5-C.pdf target="blank">CCxxxTxxK240G5-C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=32&amp;mdl=388&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PIC-CONE-SHNT-001_datasheet.pdf" target="blank">IND-PIC-CONE-SHNT-001</a> </td> <td width="10%"> SMT Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 65 </td> <td width="10%"> </td> <td width="10%"> 0.22-8 uH </td> <td width="10%"> BB, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CCxxxTxxK240G5-C data-key-5=%20% data-key-6=The%20%IND-PIC-CONE-SHNT-101%20%is%20%the%20%Global%20%Model™%20%of%20%the%20%Piconics%20%CC110T47K240G5-C,%20%CC19T40K240G5C,%20%CC21T36K240G5-C,%20%CC45T47K240G5-C,%20%CC50T40K240G5-C,%20%and%20%CC82T44K240G5-C%20%conical%20%inductors%20%in%20%shunt%20%mount%20%configuration%20%on%20%top%20%of%20%a%20%dielectric%20%board%20%(additional%20%information%20%is%20%available%20%at%20%http://www.piconics.com).%20%The%20%inductors%20%are%20%characterized%20%in%20%two%20%port%20%shunt%20%configuration%20%with%20%one%20%end%20%connected%20%directly%20%on%20%a%20%50-ohm%20%line%20%and%20%the%20%other%20%end%20%connected%20%to%20%ground.%20%The%20%developed%20%3-port%20%model%20%is%20%validated%20%with%20%measured%20%data%20%on%20%10-mil%20%Alumina.%20%The%20%model%20%predicts%20%the%20%insertion%20%loss%20%and%20%return%20%loss%20%of%20%the%20%broadband%20%component%20%very%20%well.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Port%20%3%20%is%20%provided%20%to%20%the%20%user%20%to%20%add%20%additional%20%components%20%between%20%ground%20%and%20%the%20%part.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Piconics <td width="10%"> <a href=/models/Vendor/Piconics/CCxxxTxxK240G5-C.pdf target="blank">CCxxxTxxK240G5-C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=32&amp;mdl=389&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PIC-CONE-SHNT-101_datasheet.pdf" target="blank">IND-PIC-CONE-SHNT-101</a> </td> <td width="10%"> SMT Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.22-8 uH </td> <td width="10%"> BB, VS </td> </tr> <tr data-key-1=ThreeD data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CCxxxTxxK240G5-C_ data-key-5=%20% data-key-6=The%20%IND-PIC-CONE-201%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%the%20%Piconics%20%SMT%20%0.17%20%&#181;H%20%and%20%0.25%20%&#181;H%20%broadband%20%conical%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.piconics.com).%20%The%20%models%20%are%20%for%20%use%20%in%20%3D%20%simulations%20%with%20%microstrip%20%applications.%20%The%20%models%20%are%20%validated%20%with%20%measured%20%multi-substrate%20%S-Parameters.%20%3D%20%geometry%20%models%20%are%20%well%20%suited%20%to%20%capture%20%coupling%20%or%20%close%20%proximity%20%effects%20%of%20%components%20%with%20%their%20%environment%20%that%20%would%20%not%20%be%20%possible%20%with%20%equivalent%20%circuit%20%models. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Piconics <td width="10%"> <a href=/models/Vendor/Piconics/CCxxxTxxK240G5-C_.pdf target="blank">CCxxxTxxK240G5-C_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=32&amp;mdl=1193&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PIC-CONE-201_datasheet.pdf" target="blank">IND-PIC-CONE-201</a> </td> <td width="10%"> Micro SMT Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 0.17 - 0.25 uH </td> <td width="10%"> 3D, BB, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CCxxxTxxK240G5-C data-key-5=%20% data-key-6=The%20%IND-PIC-CONE-SERS-101%20%is%20%the%20%substrate%20%scalable%20%Global%20%Model™%20%of%20%the%20%Piconics%20%CC110T47K240G5-C,%20%CC19T40K240G5-C,%20%CC21T36K240G5-C,%20%CC45T47K240G5-C,%20%CC50T40K240G5-C,%20%and%20%CC82T44K240G5-C%20%surface%20%mount%20%conical%20%inductors%20%in%20%series%20%configuration%20%(additional%20%information%20%is%20%available%20%at%20%www.piconics.com).%20%The%20%developed%20%model%20%is%20%validated%20%with%20%measured%20%data%20%on%20%different%20%substrates:%20%4-mil%20%Rogers%20%4350B,%20%5-mil%20%Alumina%20%and%20%20-mil%20%Rogers%20%4003C.%20%Simulated%20%to%20%measured%20%examples%20%are%20%also%20%shown%20%for%20%shunt%20%mount%20%“Tjunction”%20%validation%20%on%20%a%20%5%20%mil%20%alumina%20%substrate.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Piconics <td width="10%"> <a href=/models/Vendor/Piconics/CCxxxTxxK240G5-C.pdf target="blank">CCxxxTxxK240G5-C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=32&amp;mdl=726&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PIC-CONE-SERS-101_datasheet.pdf" target="blank">IND-PIC-CONE-SERS-101</a> </td> <td width="10%"> SMT Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.22 - 8 uH </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CCxxxTxxK240G5-C_ data-key-5=%20% data-key-6=The%20%IND-PIC-CONE-SERS-201%20%is%20%the%20%substrate%20%scalable%20%Global%20%Model™%20%of%20%the%20%Piconics%20%CC25T47K240G5-C%20%(0.25%20%&#181;H)%20%and%20%the%20%CC20T44K240G5-C%20%(0.17%20%&#181;H).%20%Surface%20%mount%20%conical%20%inductors%20%are%20%in%20%series%20%configuration%20%(additional%20%component%20%information%20%is%20%available%20%at%20%www.piconics.com).%20%The%20%developed%20%model%20%is%20%validated%20%with%20%measured%20%data%20%on%20%different%20%substrates%20%to%20%generate%20%a%20%substrate%20%scalable%20%model:%20%5-mil%20%Alumina%20%and%20%10-mil%20%Rogers%20%4350B.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Piconics <td width="10%"> <a href=/models/Vendor/Piconics/CCxxxTxxK240G5-C_.pdf target="blank">CCxxxTxxK240G5-C_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=32&amp;mdl=885&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PIC-CONE-SERS-201_datasheet.pdf" target="blank">IND-PIC-CONE-SERS-201</a> </td> <td width="10%"> Micro SMT Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 0.17 - 0.25 uH </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CCxxxTxxK240G5-C_ data-key-5=%20% data-key-6=The%20%IND-PIC-CONE-SHNT-201%20%is%20%the%20%Global%20%Model™%20%of%20%the%20%Piconics%20%CC25T47K240G5-C%20%(0.25%20%&#181;H)%20%and%20%CC20T44K240G5-C%20%(0.17%20%&#181;H)%20%conical%20%inductors%20%in%20%shunt%20%mount%20%configuration%20%on%20%top%20%of%20%a%20%dielectric%20%board%20%(additional%20%component%20%information%20%is%20%available%20%at%20%www.piconics.com).%20%The%20%conicals%20%are%20%characterized%20%in%20%two%20%port%20%shunt%20%configuration%20%with%20%one%20%end%20%of%20%the%20%cone%20%connected%20%directly%20%on%20%a%20%50-ohm%20%line%20%and%20%the%20%other%20%end%20%connected%20%to%20%ground.%20%The%20%developed%20%3-port%20%model%20%is%20%validated%20%with%20%measured%20%data%20%on%20%different%20%substrates%20%to%20%generate%20%a%20%substrate%20%scalable%20%model:%20%5-mil%20%Alumina%20%and%20%10mil%20%Rogers%20%4350B.%20%The%20%models%20%are%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Access%20%to%20%Port%20%3%20%is%20%provided%20%to%20%the%20%user%20%to%20%connect%20%additional%20%components%20%at%20%the%20%wide%20%end%20%of%20%the%20%conical. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Piconics <td width="10%"> <a href=/models/Vendor/Piconics/CCxxxTxxK240G5-C_.pdf target="blank">CCxxxTxxK240G5-C_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=32&amp;mdl=886&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PIC-CONE-SHNT-201_datasheet.pdf" target="blank">IND-PIC-CONE-SHNT-201</a> </td> <td width="10%"> Micro SMT Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 0.17 - 0.25 uH </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CCxxTxxK240G5-004 data-key-5=%20% data-key-6=The%20%INDSP-PIC-CONE-SHNT-001%20%is%20%a%20%part-value%20%selectable%20%S-Parameter%20%data%20%model%20%of%20%the%20%Piconics%20%-004%20%Series%20%Broadband%20%Conical%20%Inductors:%20%CC25T50K240G5-004%20%(0.125%20%&#181;H),%20%CC25T47K240G5-004%20%(0.155%20%uH)%20%and%20%C55T47K240G5-004%20%(1.00%20%&#181;H)%20%in%20%shunt%20%mount%20%configuration%20%(additional%20%component%20%information%20%is%20%available%20%at%20%www.piconics.com).%20%The%20%conicals%20%are%20%characterized%20%in%20%two-port%20%shunt%20%configuration%20%with%20%the%20%tip%20%end%20%of%20%the%20%cone%20%connected%20%directly%20%on%20%a%20%50-ohm%20%line%20%and%20%the%20%wide%20%end%20%connected%20%to%20%ground.%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance.%20%%20%%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Piconics <td width="10%"> <a href=/models/Vendor/Piconics/CCxxTxxK240G5-004.pdf target="blank">CCxxTxxK240G5-004</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=32&amp;mdl=1450&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-PIC-CONE-SHNT-001_datasheet.pdf" target="blank">INDSP-PIC-CONE-SHNT-001</a> </td> <td width="10%"> SMT Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 90 </td> <td width="10%"> </td> <td width="10%"> .125 uH, .155 uH, 1.0 uH </td> <td width="10%"> BB, PS, SP </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MK Series data-key-5=%20% data-key-6=The%20%IND-PIC-COIL-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Piconics%20%P/N%20%M%20%Series%20%(MKxxT47) Copper%20%High%20%Frequency%20%Air%20%Coils,%20%47%20%AWG%20%(36%20%um%20%wire%20%diameter)%20%inductors%20%(additional%20%information%20%is%20%available at%20%https://piconics.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models account%20%for%20%up%20%to%20%four%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency. The%20%model%20%is%20%validated%20%with%20%S-Parameter%20%extracted%20%effective%20%series%20%resistance%20%(ESR).%20%A%20%Sim_mode%20%switch%20%allows pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Piconics <td width="10%"> <a href=/models/Vendor/Piconics/MKSeries.pdf target="blank">MK Series</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=32&amp;mdl=1442&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PIC-COIL-001_datasheet.pdf" target="blank">IND-PIC-COIL-001</a> </td> <td width="10%"> Air Coil </td> <td width="10%"> Inductor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 8 - 140 nH </td> <td width="10%"> BB, SS, VS, PS </td> </tr> <tr data-key-1=ThreeD data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CCxxTxxK240G5-C data-key-5=%20% data-key-6=The%20%IND-PIC-CONE-101%20%is%20%an%20%encrypted%20%3D%20%geometry%20%model%20%available%20%in%20%Ansys%20%HFSSTM%20%for%20%Piconics%20%CC19T40K240G5-C,CC21T36K240G5-C,%20%and%20%CC45T47K240G5-C%20%conical%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.piconics.com).%20%The%20%models%20%are%20%for%20%use%20%in%20%3D%20%simulations%20%with%20%microstrip%20%applications.%20%The%20%models%20%are%20%validated%20%with%20%measured%20%multi-substrate%20%SParameters. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Piconics <td width="10%"> <a href=/models/Vendor/Piconics/CCxxTxxK240G5-C.pdf target="blank">CCxxTxxK240G5-C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=32&amp;mdl=1207&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-PIC-CONE-101_datasheet.pdf" target="blank">IND-PIC-CONE-101</a> </td> <td width="10%"> SMT Conical </td> <td width="10%"> Inductor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.22 - 0.84 uH </td> <td width="10%"> 3D, BB, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DB2791S data-key-5=%20% data-key-6=The%20%XFR-PMG-DB2791S-001%20%is%20%a%20%simulation%20%based%20%equivalent%20%circuit%20%model%20%of%20%Premier%20%Magnetics%20%P/N%20%PMDB2791S 10%20%mm%20%surface%20%mount%20%transformer%20%model.%20%Additional%20%package%20%information%20%is%20%available%20%at www.premiermag.com. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Premier_Magnetics <td width="10%"> <a href=/models/Vendor/Premier_Magnetics/DB2791S.pdf target="blank">DB2791S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1032&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFR-PMG-DB2791S-001_datasheet.pdf" target="blank">XFR-PMG-DB2791S-001</a> </td> <td width="10%"> </td> <td width="10%"> Transformer </td> <td width="10%"> .1 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> TS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=DB2795S data-key-5=%20% data-key-6=The%20%XFR-PMG-DB2795S-001%20%is%20%a%20%simulation%20%based%20%equivalent%20%circuit%20%model%20%of%20%Premier%20%Magnetics%20%P/N%20%PMDB2795S 10%20%mm%20%surface%20%mount%20%transformer%20%model.%20%Additional%20%package%20%information%20%is%20%available%20%at www.premiermag.com. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Premier_Magnetics <td width="10%"> <a href=/models/Vendor/Premier_Magnetics/DB2795S.pdf target="blank">DB2795S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1033&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFR-PMG-DB2795S-001_datasheet.pdf" target="blank">XFR-PMG-DB2795S-001</a> </td> <td width="10%"> </td> <td width="10%"> Transformer </td> <td width="10%"> .1 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BB0402X7R104M2 data-key-5=%20% data-key-6=The%20%CAP-PRS-0402-001%20%is%20%a%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Presidio%20%P/N%20%BB0402X7R104M2xxxx%20%surface mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.presidiocomponents.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available that%20%accurately%20%emulates%20%the%20%capacitor.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Presidio <td width="10%"> <a href=/models/Vendor/Presidio/BB0402X7R104M2.pdf target="blank">BB0402X7R104M2</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=4&amp;mdl=911&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PRS-0402-001_datasheet.pdf" target="blank">CAP-PRS-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 60 </td> <td width="10%"> </td> <td width="10%"> 0.1 uF </td> <td width="10%"> </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BB0201X7R103M data-key-5=%20% data-key-6=The%20%CAP-PRS-0201-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%BB0201X7R103MR0VT820 (10%20%nF)%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.presidiocomponents.com).%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Model%20%accounts%20%for%20%up%20%to%20%two%20%higher-order resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%the%20%mounted%20%capacitor%20%component.%20%A%20%Sim_mode%20%switch%20%allows pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Presidio <td width="10%"> <a href=/models/Vendor/Presidio/BB0201X7R103M.pdf target="blank">BB0201X7R103M</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=4&amp;mdl=839&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PRS-0201-001_datasheet.pdf" target="blank">CAP-PRS-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 60 </td> <td width="10%"> </td> <td width="10%"> 10 nF </td> <td width="10%"> BB, SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0402UP data-key-5=%20% data-key-6=The%20%CAP-PRS-0402-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Presidio%20%P/N%20%0402UP surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.presidiocomponents.com).%20%The models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%mount%20%configurations.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Presidio <td width="10%"> <a href=/models/Vendor/Presidio/0402UP.pdf target="blank">0402UP</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=4&amp;mdl=1008&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PRS-0402-002_datasheet.pdf" target="blank">CAP-PRS-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 24 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0603UP data-key-5=%20% data-key-6=The%20%CAP-PRS-0603-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Presidio%20%P/N%20%0603UP%20%surface mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.presidiocomponents.com).%20%The%20%models are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance, pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%mount%20%configurations.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Presidio <td width="10%"> <a href=/models/Vendor/Presidio/0603UP.pdf target="blank">0603UP</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=4&amp;mdl=1009&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PRS-0603-001_datasheet.pdf" target="blank">CAP-PRS-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BB0502X7R104M data-key-5=%20% data-key-6=The%20%CAP-PRS-0502-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%mount%20%chip%20%capacitor%20%family%20%(additi%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%a%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%wit%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Presidio <td width="10%"> <a href=http://presidiocomponents.com/products/Microwave-FO-RF-Capacitor-Links.html target="blank">BB0502X7R104M</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=4&amp;mdl=202&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PRS-0502-001_datasheet.pdf" target="blank">CAP-PRS-0502-001</a> </td> <td width="10%"> 0502 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 100 nF </td> <td width="10%"> BB, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BB0502X7R104M data-key-5=%20% data-key-6=CAP-PRS-0502-001-S%20%is%20%a%20%model%20%for%20%the%20%BB0502%20%surface%20%mount%20%chip%20%capacitor%20%(Presidio%20%P/N%20%BB0502X7R104M).%20%The%20%model%20%is%20%for%20%use%20%with%20%10%20%mil%20%quartz%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%This%20%is%20%the%20%Select%20%version%20%of%20%the%20%CAP-PRS-0502-001%20%model%20%and%20%does%20%not%20%have%20%substrate%20%scalability. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Presidio <td width="10%"> <a href=http://presidiocomponents.com/products/Microwave-FO-RF-Capacitor-Links.html target="blank">BB0502X7R104M</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=4&amp;mdl=203&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PRS-0502-001-S_datasheet.pdf" target="blank">CAP-PRS-0502-001-S</a> </td> <td width="10%"> 0502 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> DC Block </td> <td width="10%"> BB, SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0505UP data-key-5=%20% data-key-6=The%20%CAP-PRS-0505-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%s%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resi%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Presidio <td width="10%"> <a href=/models/Vendor/Presidio/0505UP.pdf target="blank">0505UP</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=4&amp;mdl=204&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PRS-0505-001_datasheet.pdf" target="blank">CAP-PRS-0505-001</a> </td> <td width="10%"> 0505 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.33 pF - 250 pF </td> <td width="10%"> SS,VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RF2132 data-key-5=%20% data-key-6=The%20%AMP-QOR-RF2132-001%20%is%20%a%20%nonlinear%20%behavioral%20%model%20%for%20%the%20%%20%RF2132%20%linear%20%power%20%amplifier%20%from%20%RFMD.%20%%20%The%20%device%20%is%20%manufactured%20%from%20%an%20%advanced%20%GaAs%20%HBT%20%process%20%and%20%can%20%provide%20%29%20%dB%20%gain%20%with%20%analog%20%in%20%the%20%800—950%20%MHz%20%operation.%20%The%20%model%20%is%20%designed%20%to%20%predict%20%the%20%circuit%20%performance%20%%20%under%20%different%20%substrate%20%types%20%and%20%bias%20%conditions%20%%20%(4.2V—5V).%20%%20%%20% data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/RF2132.pdf target="blank">RF2132</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=21&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMP-QOR-RF2132-001_datasheet.pdf" target="blank">AMP-QOR-RF2132-001</a> </td> <td width="10%"> IC </td> <td width="10%"> Amplifier </td> <td width="10%"> 3 </td> <td width="10%"> 29.0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, PS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RF2878 data-key-5=%20% data-key-6=The%20%AMPXP-RFMD-RF2878-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%RF2878%20%low%20%noise%20%amplifier%20%/%20%PA%20%driver%20%amplifier%20%from%20%RFMD.%20%This%20%amplifier%20%operates%20%from%20%0.15-2.5%20%GHz%20%with%20%a%20%very%20%high%20%dynamic%20%range%20%designed%20%for%20%digital%20%cellular%20%applications.%20%The%20%model%20%is%20%designed%20%to%20%predict%20%the%20%device%20%performance%20%as%20%a%20%function%20%of%20%frequencies,%20%bias%20%conditions%20%and%20%substrates.%20%%20%A%20%combination%20%of%20%P2D/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%small%20%signal%20%S-parameter%20%as%20%well%20%as%20%large%20%signal%20%loadpull%20%results. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/RF2878.pdf target="blank">RF2878</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=37&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-RFMD-RF2878-001-S_datasheet.pdf" target="blank">AMPXP-RFMD-RF2878-001-S</a> </td> <td width="10%"> IC </td> <td width="10%"> Amplifier </td> <td width="10%"> 2.5 </td> <td width="10%"> 32.0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, LP, IM, XP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AH101 data-key-5=%20% data-key-6=The%20%AMPXP-TRI-AH101-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%TriQuint%20%AH101%20%medium%20%power,%20%high%20%linearity%20%amplifier%20%in%20%SOT-89%20%package.%20%%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05-1.5%20%GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/AH101.pdf target="blank">AH101</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=38&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-TQT-AH101-001_datasheet.pdf" target="blank">AMPXP-TQT-AH101-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 15 </td> <td width="10%"> 26.5 </td> <td width="10%"> </td> <td width="10%"> NL, XP, SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AH101 data-key-5=%20% data-key-6=The%20%AMP-TQT-AH101-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%TriQuint%20%AH101%20%mdeium%20%power,%20%high%20%linearity%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05%20%–%20%1.5%20%GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%P2D%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results.%20% data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/AH101.pdf target="blank">AH101</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=888&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMP-TQT-AH101-001_datasheet.pdf" target="blank">AMP-TQT-AH101-001</a> </td> <td width="10%"> MMIC </td> <td width="10%"> Amplifier </td> <td width="10%"> 15 </td> <td width="10%"> 26.5 </td> <td width="10%"> </td> <td width="10%"> NL, TS, IM </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TGF2040 data-key-5=%20% data-key-6=The%20%HMT-QOR-TGF2040%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Qorvo%20%TGF2040%20%a%20%discrete%20%400um%20%pHEMT%20%using%20%Qorvo&#39;s%20%0.25um%20%power%20%pHEMT%20%process%20%(additional%20%information%20%is%20%available%20%at%20%www.qorvo.com).%20%The%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%non-linear%20%model%20%that%20%is%20%validated%20%against%20%the%20%following%20%measurement%20%data:%20%I-V,%20%S-parameters%20%&amp;%20%large%20%signal%20%load%20%pull. data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/TGF2040.pdf target="blank">TGF2040</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1185&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-QOR-TGF2040_datasheet.pdf" target="blank">HMT-QOR-TGF2040</a> </td> <td width="10%"> </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 36 </td> <td width="10%"> 24.2 </td> <td width="10%"> </td> <td width="10%"> BB, NL, LS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TGF2060 data-key-5=%20% data-key-6=The%20%HMT-QOR-TGF2060%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Qorvo%20%TGF2060%20%a%20%discrete%20%600um%20%pHEMT%20%using%20%Qorvo&#39;s%20%0.25um%20%power%20%pHEMT%20%process%20%(additional%20%information%20%is%20%available%20%at%20%www.qorvo.com).%20%The%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%non-linear%20%model%20%that%20%is%20%validated%20%against%20%the%20%following%20%measurement%20%data:%20%I-V,%20%S-parameters%20%&amp;%20%large%20%signal%20%load%20%pull. data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/TGF2060.pdf target="blank">TGF2060</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1097&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-QOR-TGF2060_datasheet.pdf" target="blank">HMT-QOR-TGF2060</a> </td> <td width="10%"> Package </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 20 </td> <td width="10%"> 28.0 </td> <td width="10%"> </td> <td width="10%"> BB, NL, LP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RF5110G data-key-5=%20% data-key-6=The%20%AMPXP-QOR-RF5110G-001is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Qorvo%20%RF5110G%20%high%20%gain%20%power%20%amplifier%20%in%20%a%20%QFN%20%3mm%20%by%20%3mm%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%DC-1GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/RF5110G.pdf target="blank">RF5110G</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1098&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMXP-QOR-RF5110G-001_datasheet.pdf" target="blank">AMXP-QOR-RF5110G-001</a> </td> <td width="10%"> QFN </td> <td width="10%"> Amplifier </td> <td width="10%"> .9 </td> <td width="10%"> 34.0 </td> <td width="10%"> 35.4 </td> <td width="10%"> IM, NL, SP, XP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QPD2120D data-key-5=%20% data-key-6=The%20%HMT-QOR-QPD2120D-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Qorvo%20%QPD2120D%20%a%20%discrete%20%1200um%20%pHEMT%20%using%20%%20%Qorvo&#39;s%20%0.25um%20%power%20%pHEMT%20%process%20%(additional%20%information%20%is%20%available%20%at%20%www.qorvo.com).%20%The%20%model%20%is%20%%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%non-linear%20%model%20%that%20%is%20%validated%20%against%20%the%20%following%20%%20%measurement%20%data:%20%I-V,%20%S-parameters,%20%noise%20%parameters%20%&amp;%20%large%20%signal%20%load%20%pull.%20% data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/QPD2120D.pdf target="blank">QPD2120D</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1369&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-QOR-QPD2120D-001_datasheet.pdf" target="blank">HMT-QOR-QPD2120D-001</a> </td> <td width="10%"> Die </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 40 </td> <td width="10%"> 30.8 </td> <td width="10%"> </td> <td width="10%"> BB. NL. LP, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QPD2040D data-key-5=%20% data-key-6=The%20%HMT-QOR-QPD2040D-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Qorvo%20%QPD2040D%20%a%20%discrete%20%400um%20%pHEMT%20%using%20%Qorvo&#39;s%20%0.25um%20%power%20%pHEMT%20%process%20%(additional%20%information%20%is%20%available%20%at%20%www.qorvo.com).%20%The%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%non-linear%20%model%20%that%20%is%20%validated%20%against%20%the%20%following%20%measurement%20%data:%20%I-V,%20%S-parameters,%20%noise%20%parameters%20%&amp;%20%large%20%signal%20%load%20%pull. data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/QPD2040D.pdf target="blank">QPD2040D</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1370&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-QOR-QPD2040D-001_datasheet.pdf" target="blank">HMT-QOR-QPD2040D-001</a> </td> <td width="10%"> Die </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 40 </td> <td width="10%"> 27.2 </td> <td width="10%"> </td> <td width="10%"> BB. NL. LP, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QPD2160D data-key-5=%20% data-key-6=The%20%HMT-QOR-QPD2160D-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Qorvo%20%QPD2160D%20%a%20%discrete%20%1600um%20%pHEMT%20%using%20%Qorvo&#39;s%20%0.25um%20%power%20%pHEMT%20%process%20%(additional%20%information%20%is%20%available%20%at%20%www.qorvo.com).%20%The%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%non-linear%20%model%20%that%20%is%20%validated%20%against%20%the%20%following%20%measurement%20%data:%20%I-V,%20%S-parameters,%20%noise%20%parameters%20%&amp;%20%large%20%signal%20%load%20%pull. data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/QPD2160D.pdf target="blank">QPD2160D</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1371&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-QOR-QPD2160D-001_datasheet.pdf" target="blank">HMT-QOR-QPD2160D-001</a> </td> <td width="10%"> Die </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 40 </td> <td width="10%"> 32.1 </td> <td width="10%"> </td> <td width="10%"> BB. NL. LP, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QPD2025D data-key-5=%20% data-key-6=The%20%HMT-QOR-QPD2025D-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Qorvo%20%QPD2025D%20%a%20%discrete%20%250um%20%pHEMT%20%using%20%Qorvo&#39;s%20%0.25um%20%power%20%pHEMT%20%process%20%(additional%20%information%20%is%20%available%20%at%20%www.qorvo.com).%20%The%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%non-linear%20%model%20%that%20%is%20%validated%20%against%20%the%20%following%20%measurement%20%data:%20%I-V,%20%S-parameters,%20%noise%20%parameters%20%&amp;%20%large%20%signal%20%load%20%pull. data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/QPD2025D.pdf target="blank">QPD2025D</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1372&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-QOR-QPD2025D-001_datasheet.pdf" target="blank">HMT-QOR-QPD2025D-001</a> </td> <td width="10%"> Die </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 40 </td> <td width="10%"> 24.3 </td> <td width="10%"> </td> <td width="10%"> BB. NL. LP, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QPD2060D data-key-5=%20% data-key-6=The%20%HMT-QOR-QPD2060D-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Qorvo%20%QPD2060D%20%a%20%discrete%20%600um%20%pHEMT%20%using%20%Qorvo&#39;s%20%0.25um%20%power%20%pHEMT%20%process%20%(additional%20%information%20%is%20%available%20%at%20%www.qorvo.com).%20%The%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%non-linear%20%model%20%that%20%is%20%validated%20%against%20%the%20%following%20%measurement%20%data:%20%I-V,%20%S-parameters,%20%noise%20%parameters%20%&amp;%20%large%20%signal%20%load%20%pull. data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/QPD2060D.pdf target="blank">QPD2060D</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1373&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-QOR-QPD2060D-001_datasheet.pdf" target="blank">HMT-QOR-QPD2060D-001</a> </td> <td width="10%"> Die </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 40 </td> <td width="10%"> 29.0 </td> <td width="10%"> </td> <td width="10%"> BB. NL. LP, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QPD2018D data-key-5=%20% data-key-6=The%20%HMT-QOR-QPD2018D-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Qorvo%20%QPD2018D%20%a%20%discrete%20%180um%20%pHEMT%20%using%20%Qorvo&#39;s%20%0.25um%20%power%20%pHEMT%20%process%20%(additional%20%information%20%is%20%available%20%at%20%www.qorvo.com).%20%The%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%non-linear%20%model%20%that%20%is%20%validated%20%against%20%the%20%following%20%measurement%20%data:%20%I-V,%20%S-parameters,%20%noise%20%parameters%20%&amp;%20%large%20%signal%20%load%20%pull. data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/QPD2018D.pdf target="blank">QPD2018D</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1374&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-QOR-QPD2018D-001_datasheet.pdf" target="blank">HMT-QOR-QPD2018D-001</a> </td> <td width="10%"> Die </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 40 </td> <td width="10%"> 22.9 </td> <td width="10%"> </td> <td width="10%"> BB. NL. LP, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QPD2080D data-key-5=%20% data-key-6=The%20%HMT-QOR-QPD2080D-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Qorvo%20%QPD2080D%20%a%20%discrete%20%800um%20%pHEMT%20%using%20%Qorvo&#39;s%20%0.25um%20%power%20%pHEMT%20%process%20%(additional%20%information%20%is%20%available%20%at%20%www.qorvo.com).%20%The%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%non-linear%20%model%20%that%20%is%20%validated%20%against%20%the%20%following%20%measurement%20%data:%20%I-V,%20%S-parameters,%20%noise%20%parameters%20%&amp;%20%large%20%signal%20%load%20%pull. data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo <td width="10%"> <a href=/models/Vendor/Qorvo/QPD2080D.pdf target="blank">QPD2080D</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1375&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-QOR-QPD2080D-001_datasheet.pdf" target="blank">HMT-QOR-QPD2080D-001</a> </td> <td width="10%"> Die </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 40 </td> <td width="10%"> 30.3 </td> <td width="10%"> </td> <td width="10%"> BB. NL. LP, TS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=B7840 data-key-5=%20% data-key-6=The%20%BPF-RF360-1575-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%B7840%20%SAW%20%band-pass%20%surface%20%mount%20%filter%20%from%20%RF360%20%(additional%20%information%20%is%20%available%20%at%20%www.rf360jv.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=BandPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> RF360 <td width="10%"> <a href=/models/Vendor/RF360/B7840.pdf target="blank">B7840</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1077&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBandPassFilter%2FBPF-RF360-1575-001_datasheet.pdf" target="blank">BPF-RF360-1575-001</a> </td> <td width="10%"> </td> <td width="10%"> BandPassFilter </td> <td width="10%"> 9 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN01 data-key-5=%20% data-key-6=The%20%PKG-RJR-QFN01-101%20%is%20%a%20%simulation%20%based%20%model%20%of%20%RJR%20%Polymers%20%RQFN44-12A%20%QFN%20%package. data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> RJR <td width="10%"> <a href=/models/Vendor/RJR/QFN01.pdf target="blank">QFN01</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=34&amp;mdl=758&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-RJR-QFN01-101-S_datasheet.pdf" target="blank">PKG-RJR-QFN01-101-S</a> </td> <td width="10%"> LCP </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN01 data-key-5=%20% data-key-6=The%20%PKG-RJR-QFN01-101%20%is%20%a%20%simulation%20%based%20%model%20%of%20%RJR%20%Polymers%20%RQFN44-12A%20%QFN%20%package.%20%The%20%model%20%replicates%20%the%20%middle%20%and%20%side%20%feed%20%through%20%paths%20%using%20%Ansys%20%HFSS%20%simulated%20%data.%20%Each%20%path%20%of%20%the%20%package%20%is%20%individually%20%modeled%20%to%20%increase%20%model%20%accuracy%20%(additional%20%information%20%is%20%available%20%at%20%www.rjrpolymers.com).%20% data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> RJR <td width="10%"> <a href=/models/Vendor/RJR/QFN01.pdf target="blank">QFN01</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=34&amp;mdl=761&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-RJR-QFN01-101_datasheet.pdf" target="blank">PKG-RJR-QFN01-101</a> </td> <td width="10%"> LCP </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RB715F data-key-5=%20% data-key-6=The%20%SKD-RHM-T323-001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Rohm%20%dual%20%configuration%20%Schottky%20%diode%20%in%20%a%20%SOT323%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%high%20%speed%20%switching.%20% data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Rohm <td width="10%"> <a href=/models/Vendor/Rohm/RB715F.pdf target="blank">RB715F</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=547&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-RHM-T323-001_datasheet.pdf" target="blank">SKD-RHM-T323-001</a> </td> <td width="10%"> SOT-323 </td> <td width="10%"> Schottky </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EMT1 data-key-5=%20% data-key-6=The%20%BJT-RHM-EMT1%20%is%20%a%20%non-linear%20%bias%20%and%20%temperature%20%scalable%20%Gummel-Poon%20%model%20%for%20%the%20%ROHM%20%EMT1%20%Dual%20%PNP%20%BJT%20%in%20%a%20%EMT6%20%(X1)%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%200%20%MHz.%20%%20%%20%This%20%model%20%performs%20%best%20%below%20%50%20%MHz%20%and%20%at%20%low%20%current%20%drive%20%in%20%the%20%Vce%20%0%20%to%20%10V%20%range%20%(eg,%20%below%20%30%20%mA).%20%The%20%PNP%20%BJT%20%model%20%was%20%developed%20%from%20%measured%20%data%20%with%20%the%20%BJT%20%in%20%a%20%common%20%emitter%20%configuration. data-key-8=PNPBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Rohm <td width="10%"> <a href=/models/Vendor/Rohm/EMT1.pdf target="blank">EMT1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=69&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPNPBJT%2FBJT-RHM-EMT1_datasheet.pdf" target="blank">BJT-RHM-EMT1</a> </td> <td width="10%"> SOT-262A2 </td> <td width="10%"> PNPBJT </td> <td width="10%"> .2 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EMX1 data-key-5=%20% data-key-6=The%20%BJT-RHM-EMX1%20%is%20%a%20%non-linear%20%bias%20%and%20%temperature%20%scalable%20%Gummel-Poon%20%model%20%for%20%the%20%ROHM%20%EMX1%20%Dual%20%NPN%20%BJT%20%in%20%a%20%EMT6%20%(X1)%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%200%20%MHz.%20%%20%%20%This%20%model%20%performs%20%best%20%below%20%50%20%MHz%20%and%20%at%20%low%20%current%20%drive%20%in%20%the%20%Vce%20%0%20%to%20%10V%20%range%20%(eg,%20%below%20%30%20%mA).%20%The%20%NPN%20%BJT%20%model%20%was%20%developed%20%from%20%measured%20%data%20%with%20%the%20%BJT%20%in%20%a%20%common%20%emitter%20%configuration.%20% data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Rohm <td width="10%"> <a href=/models/Vendor/Rohm/EMX1.pdf target="blank">EMX1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=70&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-RHM-EMX1_datasheet.pdf" target="blank">BJT-RHM-EMX1</a> </td> <td width="10%"> SOT-262A2 </td> <td width="10%"> NPNBJT </td> <td width="10%"> .2 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=UMT1NR data-key-5=%20% data-key-6=The%20%BJT_RHM_UMT1NR%20%is%20%a%20%non-linear%20%Gummel-Poon%20%model%20%for%20%the%20%ROHM%20%UMT1NR%20%Dual%20%PNP%20%BJT%20%in%20%a%20%SC-74%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%25%20%MHz.%20%The%20%BJT%20%model%20%was%20%developed%20%from%20%measured%20%data%20%with%20%the%20%BJT%20%in%20%a%20%common%20%emitter%20%configuration.%20% data-key-8=PNPBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Rohm <td width="10%"> <a href=/models/Vendor/Rohm/UMT1NR.pdf target="blank">UMT1NR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=71&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPNPBJT%2FBJT-RHM-UMT1NR_datasheet.pdf" target="blank">BJT-RHM-UMT1NR</a> </td> <td width="10%"> SC-74 </td> <td width="10%"> PNPBJT </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CL02CxxxxxxG data-key-5=%20% data-key-6=The%20%CAP-SAM-01005-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Samsung%20%P/N%20%CL02CxxxxxxG%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.samsungsem.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Samsung <td width="10%"> <a href=/models/Vendor/Samsung/CL02CxxxxxxG.pdf target="blank">CL02CxxxxxxG</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=925&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-SAM-01005-002_datasheet.pdf" target="blank">CAP-SAM-01005-002</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.4-27 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CL02CxxxxxxA data-key-5=%20% data-key-6=The%20%CAP-SAM-01005-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Samsung%20%P/N%20%CL02C%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.samsung.com/us/support/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Samsung <td width="10%"> <a href=/models/Vendor/Samsung/CL02CxxxxxxA.pdf target="blank">CL02CxxxxxxA</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=205&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-SAM-01005-001_datasheet.pdf" target="blank">CAP-SAM-01005-001</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.2-100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CL03C data-key-5=%20% data-key-6=The%20%CAP-SAM-0201-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%sub%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%pad%20%gap,%20%pad%20%width%20%and%20%component%20%tolerance%20%order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Samsung <td width="10%"> <a href=/models/Vendor/Samsung/CL03C.pdf target="blank">CL03C</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=206&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-SAM-0201-001_datasheet.pdf" target="blank">CAP-SAM-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.2-27 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=856331 data-key-5=%20% data-key-6=The%20%DPX-SAW-856331-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%856331%20%SAW%20%duplexer%20%from%20%SAWTEK.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Duplexer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Sawtek <td width="10%"> <a href=/models/Vendor/Sawtek/856331.pdf target="blank">856331</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=245&amp;returnUrl=%2Fmodels%2Fdatasheet%2FDuplexer%2FDPX-SAW-856331-001_datasheet.pdf" target="blank">DPX-SAW-856331-001</a> </td> <td width="10%"> </td> <td width="10%"> Duplexer </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SEDGE data-key-5=%20% data-key-6=NA data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SignalEdge <td width="10%"> <a href=/models/Vendor/SignalEdge/SEDGE.pdf target="blank">SEDGE</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=118&amp;mdl=1536&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FSEDGE_datasheet.pdf" target="blank">SEDGE</a> </td> <td width="10%"> </td> <td width="10%"> Capacitor </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=2SC3356 data-key-5=%20% data-key-6=The%20%BJT-SSL-2SC3356-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Silicon%20%Supplies%20%silicon%20%NPN%20%planar%20%RF%20%bipolar%20%transistor%20%die,%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Gummel-Poon%20%model%20%(additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;https://siliconsupplies.com&quot;&gt;%20%Silicon%20%Supplies&lt;/a&gt;).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%RF%20%wideband%20%amplifiers%20%operating%20%from%20%0.01%20%to7%20%GHz.%20%The%20%device%20%is%20%a%20%direct%20%replacement%20%for%20%the%20%obsolete%20%NE85600%20%or%20%NE85633%20%and%20%is%20%also%20%functionally%20%similar%20%to%20%BFR96.%20%Modelithics%20%nonlinear%20%model%20%BJT-SSL-2SC3356-002%20%is%20%available%20%for%20%die%20%2SC3356%20%in%20%Micro-X%20%package. data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SiS <td width="10%"> <a href=/models/Vendor/SiS/2SC3356.pdf target="blank">2SC3356</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=94&amp;mdl=1169&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-SSL-2SC3356-001_datasheet.pdf" target="blank">BJT-SSL-2SC3356-001</a> </td> <td width="10%"> Die </td> <td width="10%"> NPNBJT </td> <td width="10%"> 8 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, NP, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=2SC3356 data-key-5=%20% data-key-6=The%20%BJT-SSL-2SC3356-002%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Silicon%20%Supplies%20%silicon%20%NPN%20%planar%20%RF%20%bipolar%20%transistor%20%Micro-X%20%package,%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Gummel-Poon%20%model%20%(additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;https://siliconsupplies.com&quot;&gt;Silicon%20%Supplies&lt;/a&gt;).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%RF%20%wideband%20%amplifiers%20%operating%20%from%20%0.01%20%to%20%7%20%GHz.%20%The%20%device%20%is%20%a%20%direct%20%replacement%20%for%20%the%20%obsolete%20%NE85600%20%or%20%NE85633%20%and%20%is%20%also%20%functionally%20%similar%20%to%20%BFR96.%20% data-key-8=NPNBJT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SiS <td width="10%"> <a href=/models/Vendor/SiS/2SC3356.pdf target="blank">2SC3356</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=94&amp;mdl=1170&amp;returnUrl=%2Fmodels%2Fdatasheet%2FNPNBJT%2FBJT-SSL-2SC3356-002_datasheet.pdf" target="blank">BJT-SSL-2SC3356-002</a> </td> <td width="10%"> Micro-X package </td> <td width="10%"> NPNBJT </td> <td width="10%"> 8 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, NP, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SLD-1083CZ data-key-5=%20% data-key-6=The%20%MOSFET%20%MOS_SRZ_SLD1083%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Sirenza%20%SLD1083%20%LDMOSFET.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%2.5%20%GHz.%20%The%20%model%20%is%20%designed%20%for%20%broadband%20%commercial%20%and%20%industrial%20%applications,%20%especially%20%for%20%Class%20%A%20%and%20%Class%20%A/%20%B%20%amplifier%20%design.%20%%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Sirenza <td width="10%"> <a href=/models/Vendor/Sirenza/SLD-1083CZ.pdf target="blank">SLD-1083CZ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=465&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-SRZ-SLD1083CZ_datasheet.pdf" target="blank">MOS-SRZ-SLD1083CZ</a> </td> <td width="10%"> Ceramic Package </td> <td width="10%"> MOSFET </td> <td width="10%"> 2.5 </td> <td width="10%"> 35.0 </td> <td width="10%"> </td> <td width="10%"> NL, LP, IM </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SLD-2083CZ data-key-5=%20% data-key-6=The%20%MOSFET%20%MOS_SRZ_SLD2083%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Sirenza%20%SLD2083%20%LDMOSFET.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%2.5%20%GHz.%20%The%20%model%20%is%20%designed%20%for%20%broadband%20%commercial%20%and%20%industrial%20%applications,%20%especially%20%for%20%Class%20%A%20%and%20%Class%20%A/%20%B%20%amplifier%20%design.%20%%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Sirenza <td width="10%"> <a href=/models/Vendor/Sirenza/SLD-2083CZ.pdf target="blank">SLD-2083CZ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=466&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-SRZ-SLD2083CZ_datasheet.pdf" target="blank">MOS-SRZ-SLD2083CZ</a> </td> <td width="10%"> Ceramic Package </td> <td width="10%"> MOSFET </td> <td width="10%"> 2.5 </td> <td width="10%"> 40.0 </td> <td width="10%"> </td> <td width="10%"> NL, LP, IM </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMP1324-087LF data-key-5=%20% data-key-6=The%20%PIN-SKY-QFN-001%20%model%20%is%20%a%20%substrate%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMP1324-087LF%20%PIN%20%diode.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%The%20%junction%20%capacitance%20%and%20%series%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%PIN%20%diode%20%is%20%designed%20%for%20%RF%20%attenuator%20%and%20%switches%20%applications.%20% data-key-8=PINDiode data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMP1324-087LF.pdf target="blank">SMP1324-087LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=485&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPINDiode%2FPIN-SKY-QFN-001_datasheet.pdf" target="blank">PIN-SKY-QFN-001</a> </td> <td width="10%"> MMIC </td> <td width="10%"> PINDiode </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMS7621-079 data-key-5=%20% data-key-6=The%20%SKD-SKY-SC79-001%20%is%20%a%20%substrate%20%specific%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMS7621-079%20%single%20%Schottky%20%diode%20%in%20%a%20%SC79%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%12%20%GHz.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%This%20%part%20%is%20%designed%20%for%20%use%20%in%20%mixers%20%and%20%detectors. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMS7621-079.pdf target="blank">SMS7621-079</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=548&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-SKY-SC79-001_datasheet.pdf" target="blank">SKD-SKY-SC79-001</a> </td> <td width="10%"> SC-79 </td> <td width="10%"> Schottky </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMS7621-015 data-key-5=%20% data-key-6=The%20%SKD-SKY-T143-001%20%is%20%a%20%substrate%20%specific%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMS7621-015%20%dual%20%Schottky%20%diode%20%in%20%a%20%SOT143%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%12%20%GHz.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%mixing%20%and%20%detecting%20%applications.%20% data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMS7621-015.pdf target="blank">SMS7621-015</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=550&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-SKY-T143-001_datasheet.pdf" target="blank">SKD-SKY-T143-001</a> </td> <td width="10%"> SOT-143 </td> <td width="10%"> Schottky </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMS3927-023 data-key-5=%20% data-key-6=The%20%SKD-SKY-T143-002%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMS3927-023%20%quad%20%Schottky%20%diode%20%in%20%a%20%SOT-143%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%switching,%20%detecting%20%and%20%wave%20%shaping%20%applications. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMS3927-023.pdf target="blank">SMS3927-023</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=551&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-SKY-T143-002_datasheet.pdf" target="blank">SKD-SKY-T143-002</a> </td> <td width="10%"> SOT-143 </td> <td width="10%"> Schottky </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMS3940-029LF data-key-5=%20% data-key-6=The%20%SKD_SKY_T143_003%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMS3940-029LF%20%crossover%20%octoquad%20%Schottky%20%diode%20%in%20%a%20%SOT-143%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%double%20%balanced%20%mixer%20%applications.%20% data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMS3940-029LF.pdf target="blank">SMS3940-029LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=552&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-SKY-T143-003_datasheet.pdf" target="blank">SKD-SKY-T143-003</a> </td> <td width="10%"> SOT-143 </td> <td width="10%"> Schottky </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, FL </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AS193-73 data-key-5=%20% data-key-6=The%20%SWT-SKY-AS193-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%Skyworks%20%AS193-73%20%PHEMT%20%GaAs%20%IC%20%SPDT%20%switch.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%%20%%20% data-key-8=Switch data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/AS193-73.pdf target="blank">AS193-73</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=617&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSwitch%2FSWT-SKY-AS193-001_datasheet.pdf" target="blank">SWT-SKY-AS193-001</a> </td> <td width="10%"> PHEMT GaAs IC SPDT </td> <td width="10%"> Switch </td> <td width="10%"> 3.5 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AS204-80 data-key-5=%20% data-key-6=The%20%SWT-SKY-AS204-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%Skyworks%20%AS204-80%20%GaAs%20%IC%20%SP4T%20%nonreflective%20%switch.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%%20%%20% data-key-8=Switch data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/AS204-80.pdf target="blank">AS204-80</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=618&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSwitch%2FSWT-SKY-AS204-001_datasheet.pdf" target="blank">SWT-SKY-AS204-001</a> </td> <td width="10%"> GaAs MMIC </td> <td width="10%"> Switch </td> <td width="10%"> 3.5 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMV1253-079 data-key-5=%20% data-key-6=The%20%VAR_SKY_SC79_001%20%is%20%a%20%substrate%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMV1253%20%hyperabrupt%20%tuning%20%varactor%20%diode%20%in%20%a%20%SC-79%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%%20%%20%%20%%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%VCOs%20%with%20%low%20%tuning%20%voltage%20%operation. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMV1253-079.pdf target="blank">SMV1253-079</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=620&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-SKY-SC79-001_datasheet.pdf" target="blank">VAR-SKY-SC79-001</a> </td> <td width="10%"> SC-79 </td> <td width="10%"> Varactor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMV1147 data-key-5=%20% data-key-6=The%20%VAR_SKY_D323_001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable%20%bias-dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMV1147%20%hyperabrupt%20%tuning%20%varactor%20%diode%20%in%20%a%20%SOD-323%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%VCOs%20%with%20%low%20%tuning%20%voltage%20%operation.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMV1147.pdf target="blank">SMV1147</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=621&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-SKY-D323-001_datasheet.pdf" target="blank">VAR-SKY-D323-001</a> </td> <td width="10%"> SOD-323 </td> <td width="10%"> Varactor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, FL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMV2201-040LF data-key-5=%20% data-key-6=The%20%VAR-SKY-0402-002%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMV2201-%20%040LF%20%varactor%20%diode,%20%featuring%20%a%20%0402%20%footprint%20%(additional%20%information%20%is%20%available%20%at%20%www.skyworks.com).%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature,%20%and%20%pad%20%stack%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%This%20%part%20%is%20%intended%20%for%20%use%20%in%20%VCO,%20%phase%20%shifters%20%and%20%filters.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMV2201-040LF.pdf target="blank">SMV2201-040LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=623&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-SKY-0402-002_datasheet.pdf" target="blank">VAR-SKY-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Varactor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, PS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMV2202-040LF data-key-5=%20% data-key-6=The%20%VAR-SKY-0402-003%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMV2202-%20%040LF%20%varactor%20%diode,%20%featuring%20%a%20%0402%20%footprint%20%(additional%20%information%20%is%20%available%20%at%20%www.skyworks.com).%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature,%20%and%20%pad%20%stack%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%This%20%part%20%is%20%intended%20%for%20%use%20%in%20%VCO,%20%phase%20%shifters%20%and%20%filters.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMV2202-040LF.pdf target="blank">SMV2202-040LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=624&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-SKY-0402-003_datasheet.pdf" target="blank">VAR-SKY-0402-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Varactor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, PS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMV2203-040LF data-key-5=%20% data-key-6=The%20%VAR-SKY-0402-004%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMV2203-%20%040LF%20%varactor%20%diode,%20%featuring%20%a%20%0402%20%footprint%20%(additional%20%information%20%is%20%available%20%at%20%www.skyworks.com).%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature,%20%and%20%pad%20%stack%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%This%20%part%20%is%20%intended%20%for%20%use%20%in%20%VCO,%20%phase%20%shifters%20%and%20%filters. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMV2203-040LF.pdf target="blank">SMV2203-040LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=625&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-SKY-0402-004_datasheet.pdf" target="blank">VAR-SKY-0402-004</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Varactor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, PS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMV2204-040LF data-key-5=%20% data-key-6=The%20%VAR-SKY-0402-005%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMV2204-%20%040LF%20%varactor%20%diode,%20%featuring%20%a%20%0402%20%footprint%20%(additional%20%information%20%is%20%available%20%at%20%www.skyworks.com).%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature,%20%and%20%pad%20%stack%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%This%20%part%20%is%20%intended%20%for%20%use%20%in%20%VCO,%20%phase%20%shifters%20%and%20%filters.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMV2204-040LF.pdf target="blank">SMV2204-040LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=626&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-SKY-0402-005_datasheet.pdf" target="blank">VAR-SKY-0402-005</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Varactor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, PS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMV2205-040LF data-key-5=%20% data-key-6=The%20%VAR-SKY-0402-006%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMV2205-%20%040LF%20%varactor%20%diode,%20%featuring%20%a%20%0402%20%footprint%20%(additional%20%information%20%is%20%available%20%at%20%www.skyworks.com).%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature,%20%and%20%pad%20%stack%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%This%20%part%20%is%20%intended%20%for%20%use%20%in%20%VCO,%20%phase%20%shifters%20%and%20%filters.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMV2205-040LF.pdf target="blank">SMV2205-040LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=627&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-SKY-0402-006_datasheet.pdf" target="blank">VAR-SKY-0402-006</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Varactor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, PS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMV1763-040LF data-key-5=%20% data-key-6=The%20%VAR-SKY-0402-101%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMV1763- 040LF%20%varactor%20%diode,%20%featuring%20%a%20%0402%20%footprint%20%(additional%20%information%20%is%20%available%20%at%20%www.skyworks.com). Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature,%20%and%20%pad%20%stack dimensions%20%are%20%model%20%input%20%parameters.%20%Junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of bias.%20%The%20%diode%20%is%20%intended%20%for%20%use%20%in%20%VCO%20%phase%20%shifters%20%and%20%filters. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMV1763-040LF.pdf target="blank">SMV1763-040LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1026&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-SKY-0402-101_datasheet.pdf" target="blank">VAR-SKY-0402-101</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Varactor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, PS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMS7621-005 data-key-5=%20% data-key-6=The%20%SKD-SKY-ST23-001%20%is%20%a%20%substrate%20%specific%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMS7621-005%20%dual%20%Schottky%20%diode%20%in%20%a%20%SOT23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%20%20%GHz.%20%%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%mixing%20%and%20%detecting%20%applications. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMS7621-005.pdf target="blank">SMS7621-005</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=923&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-SKY-ST23-101_datasheet.pdf" target="blank">SKD-SKY-ST23-101</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMS7630-006LF data-key-5=%20% data-key-6=The%20%SKD-SKY-ST23-003%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMS7630-006LF%20%reverse%20%series%20%pair%20%Schottky%20%diodes,%20%featuring%20%a%20%SOT-23%20%package%20%(additional%20%information%20%is%20%available%20%at%20%https://www.skyworksinc.com/).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%30%20%GHz.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%This%20%part%20%is%20%designed%20%for%20%use%20%in%20%mixers%20%and%20%detectors. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMS7630-006LF.pdf target="blank">SMS7630-006LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1115&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-SKY-ST23-003_datasheet.pdf" target="blank">SKD-SKY-ST23-003</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB,NL,SS,TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMS7630-079LF data-key-5=%20% data-key-6=The%20%SKD-SKY-ST23-101%20%is%20%a%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMS7621-005%20%Series%20%Pair%20%Schottky%20%Diode,%20%featuring%20%a%20%SOT-23%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.skyworks.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%20%20%GHz.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%mixing%20%and%20%detecting%20%applications. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMS7630-079LF.pdf target="blank">SMS7630-079LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1116&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-SKY-SC79-002_datasheet.pdf" target="blank">SKD-SKY-SC79-002</a> </td> <td width="10%"> SC-79 </td> <td width="10%"> Schottky </td> <td width="10%"> 35 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMS7630-061 data-key-5=%20% data-key-6=The%20%SKD-SKY-0201-001%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMS7630-061%20%Schottky%20%diode,%20%featuring%20%an%20%ultra-miniature%20%0201%20%SMT%20%package%20%(additional%20%information%20%is%20%available%20%at%20%https://www.skyworksinc.com/).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%50%20%GHz.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%This%20%part%20%is%20%designed%20%for%20%use%20%in%20%mixers%20%and%20%detectors. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMS7630-061.pdf target="blank">SMS7630-061</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1112&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-SKY-0201-001_datasheet.pdf" target="blank">SKD-SKY-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Schottky </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL,SS,TS,PS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SMS7630-005LF data-key-5=%20% data-key-6=The%20%SKD-SKY-ST23-002%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Skyworks%20%SMS7630-005LF%20%series%20%pair%20%Schottky%20%diodes,%20%featuring%20%a%20%SOT-23%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.skyworks.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%25%20%GHz.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%This%20%part%20%is%20%designed%20%for%20%use%20%in%20%mixers%20%and%20%detectors. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SkyWorks <td width="10%"> <a href=/models/Vendor/SkyWorks/SMS7630-005LF.pdf target="blank">SMS7630-005LF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1113&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-SKY-ST23-002_datasheet.pdf" target="blank">SKD-SKY-ST23-002</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 25 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB,NL,SS,TS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TT9 data-key-5=%20% data-key-6=The%20%ATT-SINT-TT9-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Smiths%20%Interconnects%20%P/N TT9%20%SMT%20%series%20%surface%20%mount%20%attenuator%20%family%20%(additional%20%information%20%is%20%available%20%at www.smithsinterconnect.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/TT9.pdf target="blank">TT9</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1073&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-SINT-TT9-001_datasheet.pdf" target="blank">ATT-SINT-TT9-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Attenuator </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> VS, SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CTxxxxD data-key-5=%20% data-key-6=The%20%RES-SINT-CTxxxxD-050-001%20%is%20%a%20%part%20%size%20%selectable%20%Global%20%Model™%20%for%20%the%20%50%20%Ohm%20%resistors%20%from%20%Smiths Interconnect%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%chip and%20%wire%20%connections%20%and%20%represents%20%the%20%CT0402D,%20%CT0505D,%20%CT0603D%20%and%20%CT1310D%20%part%20%numbers. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/CTxxxxD.pdf target="blank">CTxxxxD</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1074&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-SINT-CTxxxxD_050-001_datasheet.pdf" target="blank">RES-SINT-CTxxxxD_050-001</a> </td> <td width="10%"> Various </td> <td width="10%"> Resistor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 50 Ohms </td> <td width="10%"> VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CRxxxxD data-key-5=%20% data-key-6=The%20%RES-SINT-CRxxxxD-100-001%20%is%20%a%20%part%20%size%20%selectable%20%Global%20%Model™%20%for%20%the%20%100%20%Ohm%20%resistors%20%from%20%Smiths%20%Interconnect%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com%20%).%20%The%20%model%20%is%20%for%20%use%20%with%20%chip%20%and%20%wire%20%connections%20%and%20%represents%20%the%20%CR0402D,%20%CR0505D,%20%CR0603D%20%and%20%CR1010D%20%part%20%numbers. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/CRxxxxD.pdf target="blank">CRxxxxD</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1075&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-SINT-CRxxxxD_100-001_datasheet.pdf" target="blank">RES-SINT-CRxxxxD_100-001</a> </td> <td width="10%"> Various </td> <td width="10%"> Resistor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 100 Ohms </td> <td width="10%"> VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CE_XXXX_N_XXX_SMTF data-key-5=%20% data-key-6=The%20%FEQ-SINT-CExxxxN0xxSMTF-001%20%is%20%a%20%part%20%selectable%20%equivalent%20%circuit%20%model%20%for%20%the%20%surface%20%mount frequency%20%equalizer%20%from%20%Smiths%20%Interconnect%20%(Additional%20%information%20%about%20%Smiths%20%Interconnect%20%frequency equalizers%20%available%20%at%20%www.smithsinterconnect.com).%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. data-key-8=Equalizer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/CE_XXXX_N_XXX_SMTF.pdf target="blank">CE_XXXX_N_XXX_SMTF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1076&amp;returnUrl=%2Fmodels%2Fdatasheet%2FEqualizer%2FFEQ-SINT-CExxxxN0xxSMTF-001_datasheet.pdf" target="blank">FEQ-SINT-CExxxxN0xxSMTF-001</a> </td> <td width="10%"> Chip </td> <td width="10%"> Equalizer </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> VS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WPD04-2535EGF data-key-5=%20% data-key-6=The%20%SPLSP-SINT-WPD042535EGF%20%-001%20%is%20%a%20%substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%Smiths Interconnect%20%P/N%20%WPD04-2535EGF%20%6dB%20%four-way%20%Wilkinson%20%power%20%splitter%20%with,%20%face%20%up%20%orientation (additional%20%information%20%is%20%available%20%at%20%(smithsinterconnect.com).%20%The%20%S-Parameter%20%model%20%is%20%valid%20%for%20%two unique%20%substrates%20%up%20%to%20%67%20%GHz%20%based%20%on%20%accurate%20%measurements,%20%maximum%20%frequency%20%depends%20%on substrate%20%selection. The%20%4-way%20%WPD04-2535EGF%20%Wilkinson%20%power%20%splitter%20%is%20%designed%20%for%20%25%20%to%20%35%20%GHz%20%applications,%20%while%20%the developed%20%model%20%can%20%be%20%simulated%20%outside%20%the%20%product%20%recommended%20%frequency%20%range%20%and%20%up%20%to%20%67%20%GHz%20%on specific%20%substrates data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/WPD04-2535EGF.pdf target="blank">WPD04-2535EGF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1512&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-SINT-WPD042535EGF-001_datasheet.pdf" target="blank">SPLSP-SINT-WPD042535EGF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 6 dB </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WPD04-1525EFF data-key-5=%20% data-key-6=The%20%SPLSP-SINT-WPD041525EFF-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%Smiths%20%Interconnect%20%P/N%20%WPD04- 1525EFF%20%6dB%20%four-way%20%Wilkinson%20%power%20%splitter%20%with,%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available at%20%(smithsinterconnect.com).%20%The%20%S-Parameter%20%model%20%is%20%valid%20%for%20%two%20%unique%20%substrates%20%up%20%to%20%67%20%GHz%20%based on%20%accurate%20%measurements,%20%maximum%20%frequency%20%depends%20%on%20%substrate%20%selection. The%20%4-way%20%WPD04-1525EFF%20%Wilkinson%20%power%20%splitter%20%is%20%designed%20%for%20%15%20%to%20%25%20%GHz%20%applications,%20%while%20%the developed%20%model%20%can%20%be%20%simulated%20%outside%20%the%20%product%20%recommended%20%frequency%20%range%20%and%20%up%20%to%20%67%20%GHz%20%on specific%20%substrates%20% data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/WPD04-1525EFF.pdf target="blank">WPD04-1525EFF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1513&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-SINT-WPD041525EFF-001_datasheet.pdf" target="blank">SPLSP-SINT-WPD041525EFF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 6 dB </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WPD03-1525EEF data-key-5=%20% data-key-6=The%20%SPLSP-SINT-WPD031525EEF-001%20%is%20%a%20%substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%Smiths%20%Interconnect%20%P/N%20%WPD03-1525EEF%20%4.8dB%20%three-way%20%Wilkinson%20%power%20%splitter%20%with,%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%(smithsinterconnect.com).%20%The%20%S-Parameter%20%model%20%is%20%valid%20%for%20%two%20%unique%20%substrates%20%up%20%to%20%67%20%GHz%20%based%20%on%20%accurate%20%measurements,%20%maximum%20%frequency%20%depends%20%on%20%substrate%20%selection.%20% data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/WPD03-1525EEF.pdf target="blank">WPD03-1525EEF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1514&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-SINT-WPD031525EEF-001_datasheet.pdf" target="blank">SPLSP-SINT-WPD031525EEF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 6 dB </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WPD02-2535ECF data-key-5=%20% data-key-6=The%20%SPLSP-SINT-WPD022535ECF-001%20%is%20%a%20%substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%Smiths%20%Interconnect%20%P/N%20%WPD02-2535ECF%20%two-way%20%Wilkinson%20%power%20%splitter%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%(smithsinterconnect.com).%20%The%20%S-Parameter%20%model%20%is%20%valid%20%for%20%three%20%unique%20%substrates%20%up%20%to%20%67%20%GHz%20%based%20%on%20%accurate%20%measurements,%20%maximum%20%frequency%20%depends%20%on%20%substrate%20%selection. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/WPD02-2535ECF.pdf target="blank">WPD02-2535ECF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1515&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-SINT-WPD022535ECF-001_datasheet.pdf" target="blank">SPLSP-SINT-WPD022535ECF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 6 dB </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WPD02-1525UDF data-key-5=%20% data-key-6=The%20%SPLSP-SINT-WPD021525UDF-001%20%is%20%a%20%substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%Smiths%20%Interconnect%20%P/N%20%WPD02-1525UDF%20%two-way%20%Wilkinson%20%power%20%splitter%20%with%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%(smithsinterconnect.com).%20%The%20%S-Parameter%20%model%20%is%20%valid%20%for%20%three%20%unique%20%substrates%20%up%20%to%20%67%20%GHz%20%based%20%on%20%accurate%20%measurements,%20%maximum%20%frequency%20%depends%20%on%20%substrate%20%selection.%20%%20% data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/WPD02-1525UDF.pdf target="blank">WPD02-1525UDF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1516&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-SINT-WPD021525UDF-001_datasheet.pdf" target="blank">SPLSP-SINT-WPD021525UDF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WPD02-1525EBF data-key-5=%20% data-key-6=The%20%SPLSP-SINT-WPD021525EBF-001%20%is%20%a%20%substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%Smiths%20%Interconnect%20%P/N%20%WPD02-1525EBF%20%two-way%20%Wilkinson%20%power%20%splitter%20%with%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%(smithsinterconnect.com).%20%The%20%S-Parameter%20%model%20%is%20%valid%20%for%20%three%20%unique%20%substrates%20%up%20%to%20%67%20%GHz%20%based%20%on%20%accurate%20%measurements,%20%maximum%20%frequency%20%depends%20%on%20%substrate%20%selection.%20% data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/WPD02-1525EBF.pdf target="blank">WPD02-1525EBF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1517&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-SINT-WPD021525EBF-001_datasheet.pdf" target="blank">SPLSP-SINT-WPD021525EBF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RPD04-50EHF data-key-5=%20% data-key-6=The%20%SPLSP-SINT-RPD0450EHF-001%20%is%20%a%20%substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%Smiths%20%Interconnect%20%P/N%20%RPD04-50EHF%20%12dB%20%four-way%20%resistive%20%power%20%splitter%20%with,%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%(smithsinterconnect.com).%20%The%20%S-Parameter%20%model%20%is%20%valid%20%for%20%two%20%unique%20%substrates%20%up%20%to%20%67%20%GHz%20%based%20%on%20%accurate%20%measurements,%20%maximum%20%frequency%20%depends%20%on%20%substrate%20%selection. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/RPD04-50EHF.pdf target="blank">RPD04-50EHF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1518&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-SINT-RPD0450EHF-001_datasheet.pdf" target="blank">SPLSP-SINT-RPD0450EHF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RPD02-50EAF data-key-5=%20% data-key-6=The%20%SPLSP-SINT-RPD0250EAF-001%20%is%20%a%20%substrate%20%selectable%20%S-parameter%20%data%20%model%20%for%20%Smiths%20%Interconnect%20%P/N%20%RPD02-50EAF,%20%6dB%20%two-way%20%resistive%20%power%20%splitter%20%with,%20%face%20%up%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%(smithsinterconnect.com).%20%The%20%S-Parameter%20%model%20%is%20%valid%20%for%20%three%20%unique%20%substrates%20%up%20%to%20%67%20%GHz%20%based%20%on%20%accurate%20%measurements,%20%maximum%20%frequency%20%depends%20%on%20%substrate%20%selection. data-key-8=Splitter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/RPD02-50EAF.pdf target="blank">RPD02-50EAF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1519&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSplitter%2FSPLSP-SINT-RPD0250EAF-001_datasheet.pdf" target="blank">SPLSP-SINT-RPD0250EAF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Splitter </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TT9 data-key-5=%20% data-key-6=The%20%ATT-SINT-TT9-001-S%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Smiths%20%Interconnects%20%P/N%20%TT9%20%SMT%20%series%20%surface%20%mount%20%attenuator%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/TT9.pdf target="blank">TT9</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1440&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-SINT-TT9-001-S_datasheet.pdf" target="blank">ATT-SINT-TT9-001-S</a> </td> <td width="10%"> SMT </td> <td width="10%"> Attenuator </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> VS, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TS06xxF data-key-5=%20% data-key-6=The%20%ATT-SINT-TS06XXF-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Smiths%20%Interconnects%20%%20%P/N%20%TS06XXF%20%SMT%20%series%20%surface%20%mount%20%chip%20%attenuator%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com).%20%The%20%models%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%built-in%20%solder%20%pad%20%mount%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/TS06xxF.pdf target="blank">TS06xxF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1396&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-SINT-TS06xxF-001_datasheet.pdf" target="blank">ATT-SINT-TS06xxF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0 - 20 dB </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TSX data-key-5=%20% data-key-6=The%20%ATT-SINT-TSX-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Smiths%20%Interconnects%20%P/N%20%TSX%20%SMT%20%series%20%surface%20%mount%20%attenuator%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/TSX.pdf target="blank">TSX</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1351&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-SINT-TSX-001_datasheet.pdf" target="blank">ATT-SINT-TSX-001</a> </td> <td width="10%"> TSX SMT </td> <td width="10%"> Attenuator </td> <td width="10%"> 60 </td> <td width="10%"> </td> <td width="10%"> 0 - 20 dB </td> <td width="10%"> BB, VS, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CA0505D data-key-5=%20% data-key-6=The%20%ATT-SINT-CA0505D-001%20%is%20%a%20%substrate%20%independent%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Smiths%20%Interconnects%20%wire%20%bondable%20%and%20%solderable%20%termination%20%P/N%20%CA0505D%20%attenuator%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com).%20%The%20%model%20%is%20%intended%20%for%20%wire%20%bond%20%applications. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/CA0505D.pdf target="blank">CA0505D</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1353&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-SINT-CA0505D-001_datasheet.pdf" target="blank">ATT-SINT-CA0505D-001</a> </td> <td width="10%"> 0505 </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0 - 30 dB </td> <td width="10%"> BB, BW, VS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=K2TVA data-key-5=%20% data-key-6=The%20%ATTSP-SINT-K2TVA-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%Smiths%20%Interconnect%20%Thermopad%20%K2TVAXXNXX3%20%series%20%wire%20%bonded%20%chip%20%attenuators%20%3dB%20%to%20%6dB%20%for%20%frequency%20%band%20%27-32%20%GHz%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%of%20%chip%20%attenuator%20%bonded%20%on%20%a%20%metal%20%carrier%20%accessed%20%via%20%3%20%or%20%4%20%bond%20%wires%20%per%20%termination%20%(for%20%details%20%see%20%assembly%20%page%20%in%20%this%20%datasheet).%20%Temperature%20%selectable%20%Microwave%20%Model%20%is%20%available%20%that%20%accurately%20%emulates%20%S-parameter%20%performance.%20%%20% data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/K2TVA.pdf target="blank">K2TVA</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1489&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATTSP-SINT-K2TVA-001_datasheet.pdf" target="blank">ATTSP-SINT-K2TVA-001</a> </td> <td width="10%"> Wire-bond </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 3, 4, 5 &amp; 6 dB </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WTVA data-key-5=%20% data-key-6=The%20%ATTSP-SINT-WTVA-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%Smiths%20%Interconnect%20%Thermopad%20%WTVA0X00NXWB2%20%series%20%wire%20%bonded%20%chip%20%attenuators%20%2dB%20%to%20%5dB%20%TCA06%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%of%20%chip%20%attenuator%20%bonded%20%on%20%a%20%metal%20%carrier%20%accessed%20%via%20%3%20%or%20%4%20%bond%20%wires%20%per%20%termination%20%(for%20%details%20%see%20%assembly%20%page%20%in%20%this%20%datasheet).%20%Temperature%20%selectable%20%Microwave%20%Model%20%is%20%available%20%that%20%accurately%20%emulates%20%S-parameter%20%performance.%20%%20%%20% data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/WTVA.pdf target="blank">WTVA</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1490&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATTSP-SINT-WTVA-001_datasheet.pdf" target="blank">ATTSP-SINT-WTVA-001</a> </td> <td width="10%"> Wire-bond </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 2, 3, 4, 5 &amp; 6 dB </td> <td width="10%"> SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AT5xxF data-key-5=%20% data-key-6=The%20%ATT-SINT-AT5xxF-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Smiths%20%Interconnects%20%P/N AT5xxF.%20%The%20%model%20%represents%20%the%20%AT5%20%fixed-value%20%chip%20%attenuator%20%series%20%(additional%20%information%20%is%20%available%20%at www.smithsinterconnect.com).%20%The%20%models%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%built-in solder%20%pad%20%mount%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/AT5xxF.pdf target="blank">AT5xxF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1453&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-SINT-AT5XXF-001_datasheet.pdf" target="blank">ATT-SINT-AT5XXF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> BB, VS, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AT7xxF data-key-5=%20% data-key-6=The%20%ATT-SINT-AT7xxF-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Smiths%20%Interconnects%20%P/N AT7xxF.%20%The%20%model%20%represents%20%the%20%AT7%20%fixed-value%20%chip%20%attenuator%20%series%20%(additional%20%information%20%is%20%available%20%at www.smithsinterconnect.com).%20%The%20%models%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%built-in solder%20%pad%20%mount%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/AT7xxF.pdf target="blank">AT7xxF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1454&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-SINT-AT7XXF-001_datasheet.pdf" target="blank">ATT-SINT-AT7XXF-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> BB, VS, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WTVA0x0N07 data-key-5=%20% data-key-6=The%20%ATT-SINT-WTVA0X00N07-001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the Smiths%20%Interconnects%20%P/N%20%WTVAxx00N07%20%with%20%Temperature%20%Coefficient%20%of%20%Attenuation%20%TCA%20%of%20%0.007%20%dB/dB/%20%˚C SMT%20%series%20%surface%20%mount%20%attenuator%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com). The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance%20%and%20%temperature%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%and%20%temperature%20%scalable%20%Microwave Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled%20%and%20%not%20%the%20%grounding%20%paddle. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/WTVA0x0N07.pdf target="blank">WTVA0x0N07</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1507&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-SINT-WTVA0X0N07-001_datasheet.pdf" target="blank">ATT-SINT-WTVA0X0N07-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Attenuator </td> <td width="10%"> 35 </td> <td width="10%"> </td> <td width="10%"> 2, 3, 4, 5 &amp; 6 dB </td> <td width="10%"> SS, PS, VS, TS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WTVA0x0N05 data-key-5=%20% data-key-6=The%20%ATT-SINT-WTVA0X00N07-001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the Smiths%20%Interconnects%20%P/N%20%WTVAxx00N07%20%with%20%Temperature%20%Coefficient%20%of%20%Attenuation%20%TCA%20%of%20%0.007%20%dB/dB/%20%˚C SMT%20%series%20%surface%20%mount%20%attenuator%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com). The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance%20%and%20%temperature%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%and%20%temperature%20%scalable%20%Microwave Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled%20%and%20%not%20%the%20%grounding%20%paddle. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/WTVA0x0N05.pdf target="blank">WTVA0x0N05</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1508&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-SINT-WTVA0X0N05-001_datasheet.pdf" target="blank">ATT-SINT-WTVA0X0N05-001</a> </td> <td width="10%"> SMT </td> <td width="10%"> Attenuator </td> <td width="10%"> 35 </td> <td width="10%"> </td> <td width="10%"> 2, 3, 4, 5 &amp; 6 dB </td> <td width="10%"> SS, PS, VS, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CT0404ALN1WB1 data-key-5=%20% data-key-6=The%20%RES-SINT-0404-001%20%is%20%a%20%substrate%20%independent%20%Microwave%20%Global%20%ModelTM%20%for%20%the%20%Smiths%20%Interconnect%20%50%20%Ohm%20%wire%20%bondable%20%and%20%solderable%20%termination%20%P/N%20%CT0404ALN1WB1%20%(additional%20%information%20%is%20%available%20%at%20%https://www.smithsinterconnect.com).%20%The%20%model%20%includes%20%a%20%tolerance%20%input%20%parameter%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/CT0404ALN1WB1.pdf target="blank">CT0404ALN1WB1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1339&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-SINT-0404-001_datasheet.pdf" target="blank">RES-SINT-0404-001</a> </td> <td width="10%"> 0404 </td> <td width="10%"> Resistor </td> <td width="10%"> 55 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CT0404ALN2WB1 data-key-5=%20% data-key-6=The%20%RES-SINT-0404-002%20%is%20%a%20%substrate%20%independent%20%Microwave%20%Global%20%ModelTM%20%for%20%the%20%Smiths%20%Interconnect%20%50%20%Ohm%20%wire%20%bondable%20%and%20%solderable%20%termination%20%P/N%20%CT0404ALN2WB1%20%(additional%20%information%20%is%20%available%20%at%20%https://www.smithsinterconnect.com).%20%The%20%model%20%includes%20%a%20%tolerance%20%input%20%parameter%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/CT0404ALN2WB1.pdf target="blank">CT0404ALN2WB1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1340&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-SINT-0404-002_datasheet.pdf" target="blank">RES-SINT-0404-002</a> </td> <td width="10%"> 0404 </td> <td width="10%"> Resistor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CTH0603ALN1SMTF data-key-5=%20% data-key-6=The%20%RES-SINT-0603-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%ModelTM%20%for%20%the%20%Smiths%20%Interconnect%20%50%20%Ohm%20%termination%20%P/N%20%CT0603ALN1SMTF%20%(additional%20%information%20%is%20%available%20%at%20%https://www.smithsinterconnect.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%and%20%grounded%20%coplanar%20%wave%20%guide%20%(GCPW)%20%applications,%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/CTH0603ALN1SMTF.pdf target="blank">CTH0603ALN1SMTF</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1341&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-SINT-0603-001_datasheet.pdf" target="blank">RES-SINT-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Resistor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 50 Ohm </td> <td width="10%"> BB </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1092-01A-5 data-key-5=%20% data-key-6=The%20%CON-SWM-1092-001%20%is%20%a%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Southwest%20%Microwave%20%P/N%20%1092-01A-5 Standard%20%Profile%20%2.92mm%20%(K)%20%End%20%Launch%20%Female%20%Connector%20%(additional%20%information%20%is%20%available%20%at mpd.southwestmicrowave.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%The%20%model%20%was%20%validated%20%with%20%S-Parameter%20%measurements%20%on multiple%20%boards:%20%8mil%20%Rogers%20%4003C%20%and%20%10mil%20%Rogers%20%4350B.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be disabled. data-key-8=Connector data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Southwest_Microwave <td width="10%"> <a href=/models/Vendor/Southwest_Microwave/1092-01A-5.pdf target="blank">1092-01A-5</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1060&amp;returnUrl=%2Fmodels%2Fdatasheet%2FConnector%2FCON-SWM-1092-001_datasheet.pdf" target="blank">CON-SWM-1092-001</a> </td> <td width="10%"> </td> <td width="10%"> Connector </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1093-04A-5 data-key-5=%20% data-key-6=The%20%CON-SWM-1093-001%20%is%20%a%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Southwest%20%Microwave%20%P/N%20%1093-04A-5 Standard%20%Profile%20%2.92mm%20%(K)%20%End%20%Launch%20%Male%20%Connector%20%(additional%20%information%20%is%20%available%20%at mpd.southwestmicrowave.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Connector data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Southwest_Microwave <td width="10%"> <a href=/models/Vendor/Southwest_Microwave/1093-04A-5.pdf target="blank">1093-04A-5</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1061&amp;returnUrl=%2Fmodels%2Fdatasheet%2FConnector%2FCON-SWM-1093-001_datasheet.pdf" target="blank">CON-SWM-1093-001</a> </td> <td width="10%"> </td> <td width="10%"> Connector </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=PTIC data-key-5=%20% data-key-6=The%20%CAP-STM-PTIC-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%ST%20%Microelectronics%20%PTIC tunable%20%integrated%20%capacitor%20%in%20%a%20%uQFN%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.st.com).%20%The%20%models are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> ST_Micro <td width="10%"> <a href=/models/Vendor/ST_Micro/PTIC.pdf target="blank">PTIC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=788&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-STM-PTIC-001_datasheet.pdf" target="blank">CAP-STM-PTIC-001</a> </td> <td width="10%"> uQFN </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 2.7 - 8.2 pF </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=S0202AF50R0FEB data-key-5=%20% data-key-6=The%20%RESSP-SOTA-0202-001%20%is%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%State%20%of%20%the%20%Art,%20%Inc.%20%S0202AF%20%series%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%(www.resistor.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%10%20%mil%20%thick%20%Alumina%20%substrate.%20%%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SOTA <td width="10%"> <a href=/models/Vendor/SOTA/S0202AF50R0FEB.pdf target="blank">S0202AF50R0FEB</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=22&amp;mdl=525&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRESSP-SOTA-0202-001_datasheet.pdf" target="blank">RESSP-SOTA-0202-001</a> </td> <td width="10%"> 0202 </td> <td width="10%"> Resistor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 50 Ohms </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=S0303AF50R0FWB data-key-5=%20% data-key-6=The%20%RESSP-SOTA-0303-001%20%is%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%State%20%of%20%the%20%Art,%20%Inc.%20%S0303AF%20%series%20%surface%20%mount%20%chip%20%resistors%20%(additional%20%information%20%is%20%available%20%at%20%(www.resistor.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%10%20%mil%20%thick%20%Alumina%20%substrate.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SOTA <td width="10%"> <a href=/models/Vendor/SOTA/S0303AF50R0FWB.pdf target="blank">S0303AF50R0FWB</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=22&amp;mdl=526&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRESSP-SOTA-0303-001_datasheet.pdf" target="blank">RESSP-SOTA-0303-001</a> </td> <td width="10%"> 0303 </td> <td width="10%"> Resistor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 50 Ohms </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=S0505AF50R0FEB data-key-5=%20% data-key-6=The%20%RESSP-SOTA-0505-001%20%is%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%State%20%of%20%the%20%Art,%20%Inc.%20%S0505AF%20%series%20%surface%20%mount%20%chip%20%resistors%20%(additional%20%information%20%is%20%available%20%at%20%(www.resistor.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%15%20%mil%20%thick%20%Alumina%20%substrate. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SOTA <td width="10%"> <a href=/models/Vendor/SOTA/S0505AF50R0FEB.pdf target="blank">S0505AF50R0FEB</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=22&amp;mdl=527&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRESSP-SOTA-0505-001_datasheet.pdf" target="blank">RESSP-SOTA-0505-001</a> </td> <td width="10%"> 0505 </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 50 Ohms </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=S0505CF50R0FHB data-key-5=%20% data-key-6=The%20%RESSP-SOTA-0505-002%20%is%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%State%20%of%20%the%20%Art,%20%Inc.%20%S0505CF%20%series%20%surface%20%mount%20%chip%20%resistors%20%(additional%20%information%20%is%20%available%20%at%20%(www.resistor.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%15%20%mil%20%thick%20%Alumina%20%substrate.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SOTA <td width="10%"> <a href=/models/Vendor/SOTA/S0505CF50R0FHB.pdf target="blank">S0505CF50R0FHB</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=22&amp;mdl=528&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRESSP-SOTA-0505-002_datasheet.pdf" target="blank">RESSP-SOTA-0505-002</a> </td> <td width="10%"> 0505 </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 50 Ohms </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=S0505DF50R0FEW data-key-5=%20% data-key-6=The%20%RESSP-SOTA-0505-003%20%is%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%State%20%of%20%the%20%Art,%20%Inc.%20%S0505DF%20%series%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%(www.resistor.com).%20%These%20%SParameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%15%20%mil%20%thick%20%Alumina%20%substrate.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SOTA <td width="10%"> <a href=/models/Vendor/SOTA/S0505DF50R0FEW.pdf target="blank">S0505DF50R0FEW</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=22&amp;mdl=529&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRESSP-SOTA-0505-003_datasheet.pdf" target="blank">RESSP-SOTA-0505-003</a> </td> <td width="10%"> 0505 </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 50 Ohms </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=S0505EF50R0FEW data-key-5=%20% data-key-6=The%20%RESSP-SOTA-0505-004%20%is%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%State%20%of%20%the%20%Art,%20%Inc.%20%S0505EF%20%series%20%surface%20%mount%20%chip%20%resistors%20%(additional%20%information%20%is%20%available%20%at%20%(www.resistor.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%15%20%mil%20%thick%20%Alumina%20%substrate.%20%%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SOTA <td width="10%"> <a href=/models/Vendor/SOTA/S0505EF50R0FEW.pdf target="blank">S0505EF50R0FEW</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=22&amp;mdl=530&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRESSP-SOTA-0505-004_datasheet.pdf" target="blank">RESSP-SOTA-0505-004</a> </td> <td width="10%"> 0505 </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 50 Ohms </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=S0603CF50R0FHB data-key-5=%20% data-key-6=The%20%RESSP-SOTA-0603-001%20%is%20%an%20%S-parameter%20%data%20%model%20%for%20%the%20%State%20%of%20%the%20%Art,%20%Inc.%20%S0603CF%20%series%20%surface%20%mount%20%chip%20%resistors%20%(additional%20%information%20%is%20%available%20%at%20%(www.resistor.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%15%20%mil%20%thick%20%Alumina%20%substrate.%20%%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SOTA <td width="10%"> <a href=/models/Vendor/SOTA/S0603CF50R0FHB.pdf target="blank">S0603CF50R0FHB</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=22&amp;mdl=531&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRESSP-SOTA-0603-001_datasheet.pdf" target="blank">RESSP-SOTA-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 50 Ohms </td> <td width="10%"> SP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=FLL120MK data-key-5=%20% data-key-6=The%20%MESFET%20%MES-SEDI-FLL120MK%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%SEDI%20%FLL120MK%20%MESFET%20%in%20%a%20%MK%20%package%20%based%20%on%20%the%20%extraction%20%of%20%%20%EEHEMT%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%3%20%GHz.%20%The%20%part%20%is%20%designed%20%for%20%Class%20%AB%20%operation%20%for%20%use%20%in%20%base%20%station%20%applications.%20% data-key-8=MESFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SEDI <td width="10%"> <a href=/models/Vendor/SEDI/FLL120MK.pdf target="blank">FLL120MK</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=434&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMESFET%2FMES-SEDI-FLL120MK_datasheet.pdf" target="blank">MES-SEDI-FLL120MK</a> </td> <td width="10%"> MK Package </td> <td width="10%"> MESFET </td> <td width="10%"> 3 </td> <td width="10%"> 40.0 </td> <td width="10%"> </td> <td width="10%"> NL, LP, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=FLL800IQ data-key-5=%20% data-key-6=The%20%MESFET%20%MES-SEDI-FLL800IQ%20%is%20%a%20%non-linear%20%(EEHEMT)%20%model%20%for%20%the%20%SEDI%20%FLL800%20%MESFET%20%in%20%an%20%“IQ”%20%package.%20%%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%3%20%GHz.%20%%20%The%20%model%20%is%20%designed%20%for%20%use%20%in%20%WCDMA%20%and%20%IMT2000%20%base%20%station%20%amplifier%20%applications.%20% data-key-8=MESFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SEDI <td width="10%"> <a href=/models/Vendor/SEDI/FLL800IQ.pdf target="blank">FLL800IQ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=435&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMESFET%2FMES-SEDI-FLL800IQ_datasheet.pdf" target="blank">MES-SEDI-FLL800IQ</a> </td> <td width="10%"> Flange Mount </td> <td width="10%"> MESFET </td> <td width="10%"> 3 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, LP, IM </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EGN010MK data-key-5=%20% data-key-6=The%20%HMT-SEDI-EGN010MK%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%packaged%20%SEDI%20%EGN010MK%20%GaN-HEMT%20%based%20%on%20%the%20%extraction%20%of%20%a%20%Curtice%20%CFET%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%0.3%20%to%20%3.5%20%GHz. data-key-8=GaN HEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SEDI <td width="10%"> <a href=/models/Vendor/SEDI/EGN010MK.pdf target="blank">EGN010MK</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=9&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaN_HEMT%2FHMT-SEDI-EGN010MK_datasheet.pdf" target="blank">HMT-SEDI-EGN010MK</a> </td> <td width="10%"> MK Package </td> <td width="10%"> GaN HEMT </td> <td width="10%"> 3.5 </td> <td width="10%"> 40.0 </td> <td width="10%"> </td> <td width="10%"> NL,TS, LP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EGN030MK data-key-5=%20% data-key-6=The%20%HMT-SEDI-EGN030MK%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%packaged%20%SEDI%20%EGN030MK%20%GaN-HEMT%20%based%20%on%20%the%20%extraction%20%of%20%a%20%Curtice%20%CFET%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%0.1%20%to%20%4.0%20%GHz.%20%The%20%model%20%is%20%designed%20%for%20%use%20%in%20%low%20%current,%20%wide%20%band,%20%high%20%power%20%applications.%20% data-key-8=GaN HEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SEDI <td width="10%"> <a href=/models/Vendor/SEDI/EGN030MK.pdf target="blank">EGN030MK</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=10&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaN_HEMT%2FHMT-SEDI-EGN030MK_datasheet.pdf" target="blank">HMT-SEDI-EGN030MK</a> </td> <td width="10%"> MK Package </td> <td width="10%"> GaN HEMT </td> <td width="10%"> 4 </td> <td width="10%"> 45.0 </td> <td width="10%"> </td> <td width="10%"> NL, TS, LP </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=FSX017X data-key-5=%20% data-key-6=The%20%MES-SEDI-FSX017X-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%SEDI%20%GaAs%20%MESFET%20%FSX017X%20%device.%20%The%20%model%20%is%20%%20%based%20%on%20%the%20%extraction%20%of%20%Angelov%20%nonlinear%20%model.%20%The%20%model%20%is%20%developed%20%to%20%predict%20%the%20%IV,%20%multi-bias%20%S-parameters,%20%and%20%noise%20%parameters. data-key-8=MESFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> SEDI <td width="10%"> <a href=/models/Vendor/SEDI/FSX017X.pdf target="blank">FSX017X</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=11&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMESFET%2FMES-SEDI-FSX017X_datasheet.pdf" target="blank">MES-SEDI-FSX017X</a> </td> <td width="10%"> PHEMT GaAs IC SPDT </td> <td width="10%"> MESFET </td> <td width="10%"> 26 </td> <td width="10%"> 21.0 </td> <td width="10%"> </td> <td width="10%"> NL, FL </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ATS1005-FD data-key-5=%20% data-key-6=The%20%ATT-SSU-0402-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Susumu%20%P/N%20%ATS1005-FD.%20%The%20%model%20%represents%20%the%20%ATS1005%20%fixed-value%20%chip%20%attenuator%20%series%20%(additional%20%information%20%is%20%available%20%at%20%https://www.susumu.co.jp/usa/).%20%The%20%models%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%built-in%20%solder%20%pad%20%mount%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Chip Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Susumu <td width="10%"> <a href=/models/Vendor/Susumu/ATS1005-FD.pdf target="blank">ATS1005-FD</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=107&amp;mdl=1491&amp;returnUrl=%2Fmodels%2Fdatasheet%2FChip_Attenuator%2FATT-SSU-0402-001_datasheet.pdf" target="blank">ATT-SSU-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Chip Attenuator </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TA9210D data-key-5=%20% data-key-6=The%20%HMT-TGT-TA9210D-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Tagore%20%Technology%20%TA9210D%20%RF%20%GaN%20%transistor%20%in%20%a%20%32-pin%20%QFN%20%package,%20%a%20%discrete%20%12.5W%20%GaN%20%HEMT%20%using%20%Tagore’s%20%32V%20%GaN%20%process%20%for%20%applications%20%up%20%to%20%4%20%GHz%20%(additional%20%information%20%is%20%available%20%at%20%Tagore%20%Technology).%20%The%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%non-linear%20%model%20%that%20%is%20%validated%20%against%20%the%20%following%20%Modelithics%20%measurement%20%data:%20%Pulsed%20%I-V,%20%S-parameters%20%(0.2%20%to%20%8%20%GHz)%20%and%20%large%20%signal%20%load%20%pull%20%in%20%the%20%0.8%20%to%20%4%20%GHz%20%band. data-key-8=GaN HEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TagoreTech <td width="10%"> <a href=/models/Vendor/TagoreTech/TA9210D.pdf target="blank">TA9210D</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=111&amp;mdl=1498&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaN_HEMT%2FHMT-TGT-TA9210D-001_datasheet.pdf" target="blank">HMT-TGT-TA9210D-001</a> </td> <td width="10%"> QFN </td> <td width="10%"> GaN HEMT </td> <td width="10%"> 8 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, LP, NL </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HK0603 data-key-5=%20% data-key-6=The%20%IND-TAI-0201-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Taiyo%20%Yuden%20%P/N%20%HK0603%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.yuden.co.jp/ut/product/).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/HK0603.pdf target="blank">HK0603</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=393&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TAI-0201-001_datasheet.pdf" target="blank">IND-TAI-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1 - 47 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HK1608 data-key-5=%20% data-key-6=The%20%IND-TAI-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Taiyo%20%Yuden%20%P/N%20%HK1608%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.yuden.co.jp/ut/product/).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%width,%20%pad%20%length,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/HK1608.pdf target="blank">HK1608</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=396&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TAI-0603-001_datasheet.pdf" target="blank">IND-TAI-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> 1.5-270 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HK2125 data-key-5=%20% data-key-6=The%20%IND-TAI-0805-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Taiyo%20%Yuden%20%P/N%20%HK2125%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.yuden.co.jp/ut/product/).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%width,%20%pad%20%length%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/HK2125.pdf target="blank">HK2125</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=397&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TAI-0805-001_datasheet.pdf" target="blank">IND-TAI-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.5-470 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LMK042_and_JMK042 data-key-5=%20% data-key-6=The%20%CAP-TAI-01005-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%surface%20%mount%20%chip%20%capacitor%20%family%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequen%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/LMK042_and_JMK042.pdf target="blank">LMK042_and_JMK042</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=209&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TAI-01005-002_datasheet.pdf" target="blank">CAP-TAI-01005-002</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 100 - 10,000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EMK042 data-key-5=%20% data-key-6=The%20%CAP-TAI-01005-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalab%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%wit%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% The%20%pad%20%dimensions%20%used%20%to%20%develop%20%datasheet%20%width%20%=%20%0.28%20%mm,%20%gap%20%=%20%0.12%20%mm%20%.%20%%20%Frequency%20%Sweep%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20%%20% Legend:%20% ?%20%1.57mil%20%FR4,%20%+%20%9mil%20%FR4,%20% ?%20%20mil%20%Model,%20%Symbols%20%-%20%Measured%20%data.%20%%20%Measured%20%data%20%stops%20%at%20%highest%20%valid%20%frequency%20%for%20%each%20%substrate.%20%S11%20%for%20%0.4%20%pF%20%capacitor%20%mounted%20%on%20%various%20%substrates%20%from%20%0%20%30%20%GHz.%20%%20%%20%%20% Model%20%Features%20% %20%Broadband%20%validation:%20%DC%20%%20%Equivalent%20%circuit%20%based%20%%20%Substrate%20%scalable:%20%(0.31%20% =%20%Part%20%value%20%scalable%20%(0.4%20%to%20%100%20%pF%20%Land%20%Pattern%20%(Pad)%20%scalable%20%Accurate%20%effective%20%series%20%resistance%20%Developed%20%for%20%microstrip%20%interconnects sales@modelithics.com%20% S11 surface%20%mount%20%chip%20%capacitor%20%model CAP-TAI-01005%20%0.4%20%to%20%1%20%01005%20%Body%20%Style is%20%an%20%update%20%to%20%the%20%model%20%CAP-TAI-01005-001.%20%The%20%part%20%value%20%scalability%20%has%20%been%20%expanded%20%to%20%include%20%0.4%20%to%20%100%20%pF.%20%The%20%CAP-TAI-01005-101%20%is%20%also%20%land%20%pattern%20%(Pad)%20%scalable s%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Taiyo%20%Yuden%20%(additional%20%information%20%is%20%available%20%at%20%http://www.yuden.co.jp/ut/product/%20%h%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalab%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/EMK042.pdf target="blank">EMK042</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=210&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TAI-01005-101_datasheet.pdf" target="blank">CAP-TAI-01005-101</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.5-100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TMK063 data-key-5=%20% data-key-6=The%20%CAP-TAI-0201-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effect%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%fundamental%20%series%20%resonant%20%frequency.%20%Ac%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/TMK063.pdf target="blank">TMK063</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=211&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TAI-0201-001_datasheet.pdf" target="blank">CAP-TAI-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 10 - 100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=JMK063 data-key-5=%20% data-key-6=The%20%CAP-TAI-0201-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effect%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%fundamental%20%series%20%resonant%20%frequency.%20%Ac%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/JMK063.pdf target="blank">JMK063</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=212&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TAI-0201-002_datasheet.pdf" target="blank">CAP-TAI-0201-002</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 22000 - 220000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=EMK063 data-key-5=%20% data-key-6=The%20%CAP-TAI-0201-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Taiyo%20%Yuden%20%P/N%20%EMK063%20%series%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.t-yuden.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/EMK063.pdf target="blank">EMK063</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=213&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TAI-0201-003_datasheet.pdf" target="blank">CAP-TAI-0201-003</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 120 - 10,000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=UMK105 data-key-5=%20% data-key-6=The%20%CAP-TAI-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effect%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%fundamental%20%series%20%resonant%20%frequency.%20%Ac%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/UMK105.pdf target="blank">UMK105</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=214&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TAI-0402-001_datasheet.pdf" target="blank">CAP-TAI-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.5-330 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TVS042 data-key-5=%20% data-key-6=The%20%CAP-TAI-01005-103%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Taiyo%20%Yuden%20%P/N%20%TVS042%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.ty-top.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/TVS042.pdf target="blank">TVS042</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=887&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TAI-01005-103_datasheet.pdf" target="blank">CAP-TAI-01005-103</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.2-22 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HK1005 data-key-5=%20% data-key-6=The%20%IND-TAI-0402-201%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Taiyo%20%Yuden%20%P/N%20%HK1005%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.t-yuden.com/).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/HK1005.pdf target="blank">HK1005</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=21&amp;mdl=693&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TAI-0402-201_datasheet.pdf" target="blank">IND-TAI-0402-201</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1 - 120 nH </td> <td width="10%"> SM, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HKQ0603S data-key-5=%20% data-key-6=The%20%IND-TAI-0201-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Taiyo%20%Yuden%20%P/N%20%HKQ0603S%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%https://www.yuden.co.jp/or/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%value,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/HKQ0603S.pdf target="blank">HKQ0603S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1197&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TAI-0201-002_datasheet.pdf" target="blank">IND-TAI-0201-002</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 06 – 22 nH </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HKQ0603U data-key-5=%20% data-key-6=The%20%IND-TAI-0201-003%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Taiyo%20%Yuden%20%P/N%20%HKQ0603U%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%https://www.yuden.co.jp/or/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%value,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/HKQ0603U.pdf target="blank">HKQ0603U</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1198&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TAI-0201-003_datasheet.pdf" target="blank">IND-TAI-0201-003</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 08 – 22 nH </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HKQ0603W data-key-5=%20% data-key-6=The%20%IND-TAI-0201-004%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Taiyo%20%Yuden%20%P/N%20%HKQ0603W%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%https://www.yuden.co.jp/or/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%value,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Taiyo_Yuden <td width="10%"> <a href=/models/Vendor/Taiyo_Yuden/HKQ0603W.pdf target="blank">HKQ0603W</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1199&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TAI-0201-004_datasheet.pdf" target="blank">IND-TAI-0201-004</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 06 – 100 nH </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CGA1A2C0G data-key-5=%20% data-key-6=The%20%CAP-TDK-0201-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%TDK%20%Corp.%20%P/N%20%CGA1A2C0G%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.tdk.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/CGA1A2C0G.pdf target="blank">CGA1A2C0G</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=1200&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TDK-0201-002_datasheet.pdf" target="blank">CAP-TDK-0201-002</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 1.0 – 100 pF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CGA1A2X7R data-key-5=%20% data-key-6=The%20%CAP-TDK-0201-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%TDK%20%Corp.%20%P/N%20%CGA1A2C0G%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.tdk.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%%20%odel™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/CGA1A2X7R.pdf target="blank">CGA1A2X7R</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=1201&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TDK-0201-002_datasheet.pdf" target="blank">CAP-TDK-0201-002</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 100 – 10,000 pF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CGB1T3X5R0J104M data-key-5=%20% data-key-6=The%20%CAP-TDK-0201-004%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%CGB1T3X5R%20%(0.1%20%uF)%20%surface%20%mount%20%chip%20%capacitor%20%(additional%20%information%20%is%20%available%20%at%20%www.tdk.com).%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%the%20%mounted%20%capacitor%20%component.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/CGB1T3X5R0J104M.pdf target="blank">CGB1T3X5R0J104M</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=1202&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TDK-0201-004_datasheet.pdf" target="blank">CAP-TDK-0201-004</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1 uF </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MHQ1005P data-key-5=%20% data-key-6=The%20%IND-TDK-0402-103%20%is%20%a%20%substrate%20%scalable%20%MicrowaveGlobal%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MHQ1005P%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.global.tdk.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MHQ1005P.pdf target="blank">MHQ1005P</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=1342&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-0402-103_datasheet.pdf" target="blank">IND-TDK-0402-103</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.7 - 130 nH </td> <td width="10%"> BB, SS, VS,PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLG0603P data-key-5=%20% data-key-6=The%20%IND-TDK-0201-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MLG0603%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance%20%and%20%pad%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MLG0603P.pdf target="blank">MLG0603P</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=400&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-0201-002_datasheet.pdf" target="blank">IND-TDK-0201-002</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 24 </td> <td width="10%"> </td> <td width="10%"> 0.6-120 nH </td> <td width="10%"> 3D, BB,SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLG0603S data-key-5=%20% data-key-6=The%20%IND-TDK-0201-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MLG0603S%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MLG0603S.pdf target="blank">MLG0603S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=401&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-0201-101_datasheet.pdf" target="blank">IND-TDK-0201-101</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> 0 </td> <td width="10%"> 0.9 - 100 nH </td> <td width="10%"> 3D, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLK1005S data-key-5=%20% data-key-6=The%20%IND-TDK-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MLK1005S%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MLK1005S.pdf target="blank">MLK1005S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=402&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-0402-001_datasheet.pdf" target="blank">IND-TDK-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 26 </td> <td width="10%"> </td> <td width="10%"> 1.0 - 100 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLG1005S data-key-5=%20% data-key-6=The%20%IND-TDK-0402-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MLG1005S%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MLG1005S.pdf target="blank">MLG1005S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=403&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-0402-002_datasheet.pdf" target="blank">IND-TDK-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> 1 - 390 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLG1608B data-key-5=%20% data-key-6=The%20%IND-TDK-0603-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MLG1608B%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MLG1608B.pdf target="blank">MLG1608B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=404&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-0603-002_datasheet.pdf" target="blank">IND-TDK-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 26 </td> <td width="10%"> </td> <td width="10%"> 1.0 - 100 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=NLV25T data-key-5=%20% data-key-6=The%20%IND-TDK-1008-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%NLV25T%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/NLV25T.pdf target="blank">NLV25T</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=406&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-1008-101_datasheet.pdf" target="blank">IND-TDK-1008-101</a> </td> <td width="10%"> 1008 </td> <td width="10%"> Inductor </td> <td width="10%"> 14 </td> <td width="10%"> </td> <td width="10%"> 10-100000 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLF2012 data-key-5=%20% data-key-6=The%20%IND-TDK-2012-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MLF2012%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%component%20%tolerance,%20%pad%20%length,%20%width%20%and%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MLF2012.pdf target="blank">MLF2012</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=407&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-2012-001_datasheet.pdf" target="blank">IND-TDK-2012-001</a> </td> <td width="10%"> 2012 </td> <td width="10%"> Inductor </td> <td width="10%"> 8 </td> <td width="10%"> </td> <td width="10%"> 47-100,000 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0402C0G data-key-5=%20% data-key-6=The%20%CAP-TDK-01005-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%C0402C0G%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,pad%20%widthand%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/C0402C0G.pdf target="blank">C0402C0G</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=215&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TDK-01005-001_datasheet.pdf" target="blank">CAP-TDK-01005-001</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.2 pF -100 pF </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C1005CH data-key-5=%20% data-key-6=The%20%CAP-TDK-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%resonant%20%frequency.%20%Accurate%20%effective%20%se%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/C1005CH.pdf target="blank">C1005CH</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=219&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TDK-0402-001_datasheet.pdf" target="blank">CAP-TDK-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> 0.5 pF - 33 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MHQ0402PSA data-key-5=%20% data-key-6=The%20%IND-TDK-01005-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MHQ0402PSA surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.global.tdk.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable MicrowaveGlobal%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MHQ0402PSA.pdf target="blank">MHQ0402PSA</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=919&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-01005-002_datasheet.pdf" target="blank">IND-TDK-01005-002</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.4 - 22 nH </td> <td width="10%"> 3D, SP, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C0603C0G data-key-5=%20% data-key-6=The%20%CAP-TDK-0201-401%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Supermodel™%20%for%20%TDK%20%P/N%20%C0603COG%20%surface%20%mount chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant, loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%width,%20%pad%20%length,%20%pad%20%gap,%20%and%20%component%20%tolerance%20%are%20%model%20%input parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/C0603C0G.pdf target="blank">C0603C0G</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=920&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TDK-0201-401_datasheet.pdf" target="blank">CAP-TDK-0201-401</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.2 - 100 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLG1608B data-key-5=%20% data-key-6=The%20%IND-TDK-0603-002-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MLG1608B%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MLG1608B.pdf target="blank">MLG1608B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=1107&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-0603-002-S_datasheet.pdf" target="blank">IND-TDK-0603-002-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 26 </td> <td width="10%"> </td> <td width="10%"> 1 - 100 nH </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MHQ1005P data-key-5=%20% data-key-6=The%20%IND-TDK-0402-003%20%is%20%a%20%substrate%20%scalable%20%MicrowaveGlobal%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MHQ1005P%20%series surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.global.tdk.com/).%20%The%20%models%20%are%20%for%20%use with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MHQ1005P.pdf target="blank">MHQ1005P</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=910&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-0402-003_datasheet.pdf" target="blank">IND-TDK-0402-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.7 - 130 nH </td> <td width="10%"> 3D, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C1005X5R data-key-5=%20% data-key-6=The%20%CAP-TDK-0402-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%C1005X5R%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/C1005X5R.pdf target="blank">C1005X5R</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=690&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TDK-0402-002_datasheet.pdf" target="blank">CAP-TDK-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 33 nF -220 nF </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MLG0402Q data-key-5=%20% data-key-6=The%20%IND-TDK-01005-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MLG0402Q%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/MLG0402Q.pdf target="blank">MLG0402Q</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=692&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-01005-101_datasheet.pdf" target="blank">IND-TDK-01005-101</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Inductor </td> <td width="10%"> 24 </td> <td width="10%"> </td> <td width="10%"> .2 - 33 nH </td> <td width="10%"> 3D, SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=C3225 data-key-5=%20% data-key-6=The%20%CAP-TDK-3225-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%C3225X7R1H%20%surface%20%mount chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%The%20%models%20%are%20%for%20%use with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad length,%20%pad%20%width,%20%pad%20%gap%20%and%20%bias%20%condition%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> TDK <td width="10%"> <a href=/models/Vendor/TDK/C3225.pdf target="blank">C3225</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=630&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TDK-3225-001_datasheet.pdf" target="blank">CAP-TDK-3225-001</a> </td> <td width="10%"> 3225 </td> <td width="10%"> Capacitor </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> 0.47-22uF </td> <td width="10%"> SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CMS_K280 data-key-5=%20% data-key-6=The%20%CAPV-TCD-0201-102%20%model%20%is%20%recommended%20%for%20%Tecdia’s%20%variable%20%capacitor%20%HBC2R2KY20X10X5A02%20%when%20%mounted%20%on%20%CPW%20%environment,%20%eg%20%10-mil%20%Quartz.%20%The%20%CAPV-TCD-0201-002%20%model%20%version%20%is%20%available%20%for%20%the%20%same%20%variable%20%capacitor%20%and%20%recommended%20%when%20%mounted%20%on%20%a%20%range%20%of%20%PCB%20%layers,%20%in%20%either%20%grounded-CPW%20%or%20%microstrip%20%configuration. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Tecdia <td width="10%"> <a href=/models/Vendor/Tecdia/CMS_K280.pdf target="blank">CMS_K280</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=100&amp;mdl=1484&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-TCD-CMSK280-001_datasheet.pdf" target="blank">CAP-TCD-CMSK280-001</a> </td> <td width="10%"> </td> <td width="10%"> Capacitor </td> <td width="10%"> 60 </td> <td width="10%"> </td> <td width="10%"> 1.0 &amp; 4.7 pF </td> <td width="10%"> BB, SS, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HBC2R2KY20X10X5A02 data-key-5=%20% data-key-6=The%20%CAPV-TCD-0201-002%20%model%20%is%20%recommended%20%for%20%Tecdia’s%20%variable%20%capacitor%20%HBC2R2KY20X10X5A02%20%when%20%mounted%20%on%20%a%20%range%20%of%20%PCB%20%layers,%20%in%20%either%20%grounded-CPW%20%or%20%microstrip%20%configuration.%20%The%20%CAPV-TCD-0201-102%20%model%20%version%20%is%20%available%20%for%20%the%20%same%20%variable%20%capacitor%20%and%20%recommended%20%when%20%mounted%20%on%20%CPW%20%environment,%20%eg%20%10-mil%20%Quartz. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Tecdia <td width="10%"> <a href=/models/Vendor/Tecdia/HBC2R2KY20X10X5A02.pdf target="blank">HBC2R2KY20X10X5A02</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=100&amp;mdl=1409&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAPV-TCD-0201-002_datasheet.pdf" target="blank">CAPV-TCD-0201-002</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HBC2R2KY20X10X5A02 data-key-5=%20% data-key-6=The%20%CAPV-TCD-0201-102%20%model%20%is%20%recommended%20%for%20%Tecdia’s%20%variable%20%capacitor%20%HBC2R2KY20X10X5A02%20%when%20%mounted%20%on%20%CPW%20%environment,%20%eg%20%10-mil%20%Quartz.%20%The%20%CAPV-TCD-0201-002%20%model%20%version%20%is%20%available%20%for%20%the%20%same%20%variable%20%capacitor%20%and%20%recommended%20%when%20%mounted%20%on%20%a%20%range%20%of%20%PCB%20%layers,%20%in%20%either%20%grounded-CPW%20%or%20%microstrip%20%configuration. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Tecdia <td width="10%"> <a href=/models/Vendor/Tecdia/HBC2R2KY20X10X5A02.pdf target="blank">HBC2R2KY20X10X5A02</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=100&amp;mdl=1410&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAPV-TCD-0201-102_datasheet.pdf" target="blank">CAPV-TCD-0201-102</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HBCR22AY20X10X5A02 data-key-5=%20% data-key-6=The%20%CAPV-TCD-0201-101%20%model%20%is%20%recommended%20%for%20%Tecdia’s%20%variable%20%capacitor%20%HBCR22AY20X10X5A02%20%when%20%mounted%20%on%20%CPW%20%environment,%20%eg%20%10-mil%20%Quartz.%20%The%20%CAPV-TCD-0201-001%20%model%20%version%20%is%20%available%20%for%20%the%20%same%20%variable%20%capacitor%20%and%20%recommended%20%when%20%mounted%20%on%20%a%20%range%20%of%20%PCB%20%layers,%20%in%20%either%20%grounded-CPW%20%or%20%microstrip%20%configuration.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Tecdia <td width="10%"> <a href=/models/Vendor/Tecdia/HBCR22AY20X10X5A02.pdf target="blank">HBCR22AY20X10X5A02</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=100&amp;mdl=1359&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAPV-TCD-0201-101_datasheet.pdf" target="blank">CAPV-TCD-0201-101</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HBCR22AY20X10X5A02 data-key-5=%20% data-key-6=The%20%CAPV-TCD-0201-001%20%model%20%is%20%recommended%20%for%20%Tecdia’s%20%variable%20%capacitor%20%HBCR22AY20X10X5A02%20%when%20%mounted%20%on%20%a%20%range%20%of%20%PCB%20%layers,%20%in%20%either%20%grounded-CPW%20%or%20%microstrip%20%configuration.%20%The%20%CAPV-TCD-0201-%20%101%20%model%20%version%20%is%20%available%20%for%20%the%20%same%20%variable%20%capacitor%20%and%20%recommended%20%when%20%mounted%20%on%20%CPW%20%environment,%20%eg%20%10-mil%20%Quartz.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Tecdia <td width="10%"> <a href=/models/Vendor/Tecdia/HBCR22AY20X10X5A02.pdf target="blank">HBCR22AY20X10X5A02</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=100&amp;mdl=1360&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAPV-TCD-0201-001_datasheet.pdf" target="blank">CAPV-TCD-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 110 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, SS, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LLV0603-F data-key-5=%20% data-key-6=The%20%IND-TKO-0201-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Toko%20%P/N%20%LLV0603-F%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.toko.co.jp/top/en/index.html).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toko <td width="10%"> <a href=/models/Vendor/Toko/LLV0603-F.pdf target="blank">LLV0603-F</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=408&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TKO-0201-001_datasheet.pdf" target="blank">IND-TKO-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1.0 - 33 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LL1005-FHL data-key-5=%20% data-key-6=The%20%IND-TKO-0402-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Toko%20%P/N%20%LL1005-FHL%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.toko.co.jp/top/en/index.html).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%pad%20%width,%20%pad%20%length,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toko <td width="10%"> <a href=/models/Vendor/Toko/LL1005-FHL.pdf target="blank">LL1005-FHL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=410&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TKO-0402-101_datasheet.pdf" target="blank">IND-TKO-0402-101</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.0 - 100 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LL1608-FSL data-key-5=%20% data-key-6=The%20%IND-TKO-0603-101%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Toko%20%P/N%20%LL1608-FSL%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.toko.co.jp/top/en/index.html).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toko <td width="10%"> <a href=/models/Vendor/Toko/LL1608-FSL.pdf target="blank">LL1608-FSL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=412&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TKO-0603-101_datasheet.pdf" target="blank">IND-TKO-0603-101</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.2-270 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LL2012-FHL data-key-5=%20% data-key-6=The%20%IND-TKO-0805-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Toko%20%P/N%20%LL2012-FHL%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.toko.co.jp/top/en/index.html).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toko <td width="10%"> <a href=/models/Vendor/Toko/LL2012-FHL.pdf target="blank">LL2012-FHL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=413&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TKO-0805-002_datasheet.pdf" target="blank">IND-TKO-0805-002</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 9 </td> <td width="10%"> </td> <td width="10%"> 3.3 - 680 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=LL2012-FHL data-key-5=%20% data-key-6=The%20%IND-TKO-0805-002-S%20%family%20%are%20%substrate%20%scalable%20%models%20%for%20%0805%20%surface%20%mount%20%chip%20%inductors%20%from%20%Toko%20%P/N%20%LL2012-FHL.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model?%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%This%20%is%20%the%20%Select%20%version%20%of%20%the%20%IND-TKO-0805%20%-002%20%model%20%with%20%a%20%limited%20%part%20%value%20%range. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toko <td width="10%"> <a href=/models/Vendor/Toko/LL2012-FHL.pdf target="blank">LL2012-FHL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=414&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TKO-0805-002-S_datasheet.pdf" target="blank">IND-TKO-0805-002-S</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 9 </td> <td width="10%"> </td> <td width="10%"> 33-680 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ELFC455E data-key-5=%20% data-key-6=The%20%BPF-TKO-455K-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%ELFC455E%20%ceramic%20%band-pass%20%surface%20%mount%20%filter%20%from%20%Toko.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%inter%20%onnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%%20% data-key-8=BandPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toko <td width="10%"> <a href=/models/Vendor/Toko/ELFC455E.pdf target="blank">ELFC455E</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=76&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBandPassFilter%2FBPF-TKO-455K-001_datasheet.pdf" target="blank">BPF-TKO-455K-001</a> </td> <td width="10%"> </td> <td width="10%"> BandPassFilter </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ELFY455G data-key-5=%20% data-key-6=The%20%BPF-TKO-455K-002%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%ELFY455G%20%ceramic%20%band-pass%20%surface%20%mount%20%filter%20%from%20%Toko.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%inter%20%connect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%%20%%20% data-key-8=BandPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toko <td width="10%"> <a href=/models/Vendor/Toko/ELFY455G.pdf target="blank">ELFY455G</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=77&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBandPassFilter%2FBPF-TKO-455K-002_datasheet.pdf" target="blank">BPF-TKO-455K-002</a> </td> <td width="10%"> </td> <td width="10%"> BandPassFilter </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=ELFY455E data-key-5=%20% data-key-6=The%20%BPF-TKO-455K-003%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%ELFY455E%20%ceramic%20%band-pass%20%surface%20%mount%20%%20%filter%20%from%20%Toko.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%%20% data-key-8=BandPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toko <td width="10%"> <a href=/models/Vendor/Toko/ELFY455E.pdf target="blank">ELFY455E</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=78&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBandPassFilter%2FBPF-TKO-455K-003_datasheet.pdf" target="blank">BPF-TKO-455K-003</a> </td> <td width="10%"> </td> <td width="10%"> BandPassFilter </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=617DB-1007 data-key-5=%20% data-key-6=The%20%XFR-TKO-617DB-001%20%is%20%a%20%equivalent%20%circuit%20%model%20%for%20%the%20%617DB-1007%20%surface%20%mount%20%RF%20%balun%20%transformer%20%from%20%TOKO.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications.%20%The%20%model%20%data%20%is%20%obtained%20%through%20%measurements%20%done%20%on%20%three%20%substrate%20%materials:%20%5,%20%14,%20%59%20%mil%20%FR4.%20% data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toko <td width="10%"> <a href=/models/Vendor/Toko/617DB-1007.pdf target="blank">617DB-1007</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=633&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFR-TKO-617DB-001_datasheet.pdf" target="blank">XFR-TKO-617DB-001</a> </td> <td width="10%"> </td> <td width="10%"> Transformer </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=2SK3078A data-key-5=%20% data-key-6=MOS-TSH-2SK3078A-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%2SK3078A%20%N-channel%20%MOSFET%20%based%20%on%20%the%20%extraction%20%of%20%MET%20%model%20%from%20%pulsed/static%20%IV,%20%multi-bias%20%S-parameter%20%measurements.%20%The%20%model%20%is%20%validated%20%against%20%large%20%signal%20%loadpull%20%measurements%20%taken%20%at%20%250,%20%370%20%and%20%425%20%MHz%20%The%20%model%20%is%20%intended%20%to%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%3GHz.%20%%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/2SK3078A.pdf target="blank">2SK3078A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=467&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-TSH-2SK3078A_datasheet.pdf" target="blank">MOS-TSH-2SK3078A</a> </td> <td width="10%"> QFN </td> <td width="10%"> MOSFET </td> <td width="10%"> 3 </td> <td width="10%"> 23.4 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=2SK3476 data-key-5=%20% data-key-6=MOS-TSH-2SK3476-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%2SK3476%20%N-channel%20%MOSFET%20%based%20%on%20%the%20%extraction%20%of%20%MET%20%model%20%from%20%pulsed/static%20%IV,%20%multi-bias%20%S-parameter%20%measurements.%20%The%20%model%20%is%20%validated%20%against%20%large%20%signal%20%loadpull%20%measurements%20%taken%20%at%20%250,%20%370%20%and%20%425%20%MHz%20%The%20%model%20%is%20%intended%20%to%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%3GHz.%20% data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/2SK3476.pdf target="blank">2SK3476</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=468&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-TSH-2SK3476_datasheet.pdf" target="blank">MOS-TSH-2SK3476</a> </td> <td width="10%"> QFN </td> <td width="10%"> MOSFET </td> <td width="10%"> 3 </td> <td width="10%"> 37.5 </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RFM03U3CT data-key-5=%20% data-key-6=The%20%MOS-TSH-RFM03U3CT-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%RFM03U3CT%20%3W%20%silicon%20%N-channel%20%MOSFET%20%device%20%based%20%on%20%the%20%extraction%20%of%20%the%20%MET%20%model%20%(additional%20%information%20%is%20%available%20%at%20%www.semicon.toshiba.co.jp/eng).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%high%20%frequency%20%Power%20%Amplifier%20%applications. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/RFM03U3CT.pdf target="blank">RFM03U3CT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=469&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-TSH-RFM03U3CT_datasheet.pdf" target="blank">MOS-TSH-RFM03U3CT</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> MOSFET </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RFM04U6P data-key-5=%20% data-key-6=The%20%MOS-TSH-RFM04U6P-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%RFM04U6P%20%4W%20%silicon%20%N-channel%20%MOSFET%20%device%20%based%20%on%20%the%20%extraction%20%of%20%the%20%MET%20%model%20%(additional%20%information%20%is%20%available%20%at%20%www.semicon.toshiba.co.jp/eng).%20%The%20%model%20%is%20%intended%20%for%20%use%20%in%20%high%20%frequency%20%Power%20%Amplifier%20%applications. data-key-8=MOSFET data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/RFM04U6P.pdf target="blank">RFM04U6P</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=470&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FMOS-TSH-RFM04U6P_datasheet.pdf" target="blank">MOS-TSH-RFM04U6P</a> </td> <td width="10%"> QFN </td> <td width="10%"> MOSFET </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=JDV2S07FS data-key-5=%20% data-key-6=The%20%VAR-TSH-TL1A-101%20%is%20%a%20%substrate%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%JDV2S07FS varactor%20%diode,%20%featuring%20%a%20%1-1L1A%20%package%20%(additional%20%information%20%is%20%available%20%at%20%www.toshiba.com).%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature,%20%and%20%pad%20%stack%20%dimensions are%20%model%20%input%20%parameters.%20%Junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The diode%20%is%20%designed%20%for%20%use%20%in%20%VCO%20%designs%20%for%20%UHF%20%band%20%radio%20%applications. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/JDV2S07FS.pdf target="blank">JDV2S07FS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1025&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TL1A-101_datasheet.pdf" target="blank">VAR-TSH-TL1A-101</a> </td> <td width="10%"> TL1A </td> <td width="10%"> Varactor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1SV229 data-key-5=%20% data-key-6=The%20%VAR-TSH-TE1A-001%20%is%20%a%20%substrate%20%scalable%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%1SV229%20%single%20%varactor%20%diode%20%in%20%a%20%TE1A%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/1SV229.pdf target="blank">1SV229</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=634&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TE1A-001_datasheet.pdf" target="blank">VAR-TSH-TE1A-001</a> </td> <td width="10%"> TE1A </td> <td width="10%"> Varactor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1SV279 data-key-5=%20% data-key-6=The%20%VAR-TSH-TG1A-002%20%is%20%a%20%substrate%20%scalable%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%1SV279%20%single%20%varactor%20%diode%20%in%20%a%20%TG1A%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/1SV279.pdf target="blank">1SV279</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=635&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TG1A-002_datasheet.pdf" target="blank">VAR-TSH-TG1A-002</a> </td> <td width="10%"> TG1A </td> <td width="10%"> Varactor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1SV305 data-key-5=%20% data-key-6=The%20%VAR-TSH-TG1A-001%20%is%20%a%20%substrate%20%scalable%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%1SV305%20%single%20%varactor%20%diode%20%in%20%a%20%TG1A%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/1SV305.pdf target="blank">1SV305</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=636&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TG1A-001_datasheet.pdf" target="blank">VAR-TSH-TG1A-001</a> </td> <td width="10%"> TG1A </td> <td width="10%"> Varactor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1SV325 data-key-5=%20% data-key-6=The%20%VAR_TSH_TG1A_004%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Toshiba%20%single%20%configuration%20%varactor%20%diode%20%in%20%a%20%SCD80%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%VCO’s%20%in%20%mobile%20%communication%20%equipment.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/1SV325.pdf target="blank">1SV325</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=637&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TG1A-004_datasheet.pdf" target="blank">VAR-TSH-TG1A-004</a> </td> <td width="10%"> TG1A </td> <td width="10%"> Varactor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1SV329 data-key-5=%20% data-key-6=The%20%VAR-TSH-TG1A-003%20%is%20%a%20%substrate%20%scalable%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%1SV329%20%single%20%varactor%20%diode%20%in%20%a%20%TG1A%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias. data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/1SV329.pdf target="blank">1SV329</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=638&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TG1A-003_datasheet.pdf" target="blank">VAR-TSH-TG1A-003</a> </td> <td width="10%"> TG1A </td> <td width="10%"> Varactor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1SV280 data-key-5=%20% data-key-6=The%20%VAR_TSH_TG1A_005%20%is%20%a%20%substrate%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%%20%Toshiba%20%single%20%configuration%20%varactor%20%diode%20%in%20%a%20%TG1A%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%6%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/1SV280.pdf target="blank">1SV280</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=639&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TG1A-005_datasheet.pdf" target="blank">VAR-TSH-TG1A-005</a> </td> <td width="10%"> TG1A </td> <td width="10%"> Varactor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1SV282 data-key-5=%20% data-key-6=The%20%VAR_TSH_TG1A_006%20%is%20%a%20%substrate%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%1SV282%20%varactor%20%diode%20%in%20%a%20%TG1A%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness%20%and%20%temperature.%20%Junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%small%20%size%20%tuners.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/1SV282.pdf target="blank">1SV282</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=640&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TG1A-006_datasheet.pdf" target="blank">VAR-TSH-TG1A-006</a> </td> <td width="10%"> TG1A </td> <td width="10%"> Varactor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, FL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=JDV2S09FS data-key-5=%20% data-key-6=The%20%VAR_TSH_TL1A_002%20%is%20%a%20%substrate%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%varactor%20%diode%20%JDV2S09FS%20%in%20%a%20%1-1L1A%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%VCO%20%for%20%UHF%20%band%20%radio.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/JDV2S09FS.pdf target="blank">JDV2S09FS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=642&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TL1A-002_datasheet.pdf" target="blank">VAR-TSH-TL1A-002</a> </td> <td width="10%"> TL1A </td> <td width="10%"> Varactor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, FL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=JDV2S41FS data-key-5=%20% data-key-6=The%20%VAR_TSH_TL1A_003%20%is%20%a%20%substrate%20%scalable%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%varactor%20%diode%20%JDV2S41FS%20%in%20%a%20%1-1L1A%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%Both%20%junction%20%capacitance%20%and%20%RF%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%VCO%20%for%20%UHF%20%band%20%radio.%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/JDV2S41FS.pdf target="blank">JDV2S41FS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=643&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TL1A-003_datasheet.pdf" target="blank">VAR-TSH-TL1A-003</a> </td> <td width="10%"> TL1A </td> <td width="10%"> Varactor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, FL </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=1SV279 data-key-5=%20% data-key-6=The%20%VAR-TSH-TG1A-102%20%is%20%a%20%substrate%20%scalable%20%and%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Toshiba%20%1SV279%20%single%20%varactor%20%diode%20%in%20%a%20%TG1A%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%10%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness.%20%Both%20%junction%20%capacitance%20%and%20%resistance%20%are%20%modeled%20%as%20%a%20%function%20%of%20%bias.%20% Model%20% data-key-8=Varactor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toshiba <td width="10%"> <a href=/models/Vendor/Toshiba/1SV279.pdf target="blank">1SV279</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=644&amp;returnUrl=%2Fmodels%2Fdatasheet%2FVaractor%2FVAR-TSH-TG1A-102_datasheet.pdf" target="blank">VAR-TSH-TG1A-102</a> </td> <td width="10%"> TL1A </td> <td width="10%"> Varactor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS, PS, FL </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HF373A data-key-5=%20% data-key-6=The%20%BPF-TOYO-HF373A-001%20%is%20%a%20%nonlinear%20%model%20%for%20%the%20%crystal%20%3-pole%20%band-pass%20%surface%20%mount%20%filter%20%HF373A%20%from%20%Toyocom.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%%20% data-key-8=BandPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toyocom <td width="10%"> <a href=/models/Vendor/Toyocom/HF373A.pdf target="blank">HF373A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=2&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBandPassFilter%2FBPF-TOYO-HF373A-001_datasheet.pdf" target="blank">BPF-TOYO-HF373A-001</a> </td> <td width="10%"> </td> <td width="10%"> BandPassFilter </td> <td width="10%"> .5 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HFF-101A data-key-5=%20% data-key-6=The%20%BPF-TOYO-HFF101A-001%20%is%20%a%20%nonlinear%20%model%20%for%20%the%20%crystal%20%2-pole%20%band-pass%20%surface%20%mount%20%filter%20%%20%HFF101A%20%from%20%Toyocom.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%%20% data-key-8=BandPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toyocom <td width="10%"> <a href=/models/Vendor/Toyocom/HFF-101A.pdf target="blank">HFF-101A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=3&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBandPassFilter%2FBPF-TOYO-HFF101A-001_datasheet.pdf" target="blank">BPF-TOYO-HFF101A-001</a> </td> <td width="10%"> </td> <td width="10%"> BandPassFilter </td> <td width="10%"> .4 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HFF-101B data-key-5=%20% data-key-6=The%20%BPF-TOYO-HFF101B-001%20%is%20%a%20%nonlinear%20%model%20%for%20%the%20%crystal%20%2-pole%20%band-pass%20%surface%20%mount%20%filter%20%HFF101B%20%from%20%Toyocom.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20% data-key-8=BandPassFilter data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Toyocom <td width="10%"> <a href=/models/Vendor/Toyocom/HFF-101B.pdf target="blank">HFF-101B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=4&amp;returnUrl=%2Fmodels%2Fdatasheet%2FBandPassFilter%2FBPF-TOYO-HFF101B-001_datasheet.pdf" target="blank">BPF-TOYO-HFF101B-001</a> </td> <td width="10%"> </td> <td width="10%"> BandPassFilter </td> <td width="10%"> .4 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL </td> </tr> <tr data-key-1=PreRelease data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TC2381 data-key-5=%20% data-key-6=The%20%HMT-TRC-2381-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Transcom%20%TC2381%20%packaged%20%pHEMT%20%transistor%20%with%20%a%20%ceramic%20%Micro-X%20%case%20%style%20%(additional%20%product%20%information%20%is%20%available%20%at%20%www.transcominc.com.tw).%20%The%20%substrate%20%and%20%temperature%20%scalable%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%large-signal%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%and%20%GCPW%20%printed%20%circuit%20%boards.%20%This%20%product%20%is%20%recommended%20%for%20%its%20%low%20%noise%20%characteristics%20%making%20%it%20%ideal%20%for%20%sensitive%20%receivers%20%in%20%communication%20%systems%20%up%20%to%20%12%20%GHz. data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Transcom <td width="10%"> <a href=/models/Vendor/Transcom/TC2381.pdf target="blank">TC2381</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1398&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-TRC-2381-001_datasheet.pdf" target="blank">HMT-TRC-2381-001</a> </td> <td width="10%"> Package </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, NP, TS </td> </tr> <tr data-key-1=PreRelease data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TC2384 data-key-5=%20% data-key-6=The%20%HMT-TRC-2384-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Transcom%20%TC2384%20%packaged%20%pHEMT%20%transistor%20%with%20%a%20%ceramic%20%Micro-X%20%case%20%style%20%(additional%20%product%20%information%20%is%20%available%20%at%20%www.transcominc.com.tw).%20%The%20%substrate%20%and%20%temperature%20%scalable%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%large-signal%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%and%20%GCPW%20%printed%20%circuit%20%boards.%20%This%20%product%20%is%20%recommended%20%for%20%its%20%low%20%noise%20%characteristics%20%making%20%it%20%ideal%20%for%20%sensitive%20%receivers%20%in%20%communication%20%systems%20%up%20%to%20%12%20%GHz. data-key-8=GaAsPHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Transcom <td width="10%"> <a href=/models/Vendor/Transcom/TC2384.pdf target="blank">TC2384</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1399&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaAsPHEMT%2FHMT-TRC-2384-001_datasheet.pdf" target="blank">HMT-TRC-2384-001</a> </td> <td width="10%"> Package </td> <td width="10%"> GaAsPHEMT </td> <td width="10%"> 12 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL, NP, TS </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TC2381 data-key-5=%20% data-key-6=The%20%HMT-TRA-TC2381-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Transcom%20%TC2381%20%packaged%20%pHEMT%20%transistor%20%with%20%a%20%ceramic%20%Micro-X%20%case%20%style%20%(additional%20%product%20%information%20%is%20%available%20%at%20%www.transcominc.com.tw).%20%The%20%substrate%20%and%20%temperature%20%scalable%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%large-signal%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%and%20%GCPW%20%printed%20%circuit%20%boards.%20%This%20%product%20%is%20%recommended%20%for%20%its%20%low%20%noise%20%characteristics%20%making%20%it%20%ideal%20%for%20%sensitive%20%receivers%20%in%20%communication%20%systemsup%20%to%20%12%20%GHz. data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Transcom <td width="10%"> <a href=/models/Vendor/Transcom/TC2381.pdf target="blank">TC2381</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1411&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-TRA-TC2381-001_datasheet.pdf" target="blank">HMT-TRA-TC2381-001</a> </td> <td width="10%"> Micro-X </td> <td width="10%"> PHEMT </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL </td> </tr> <tr data-key-1=NLT - Transistors data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=TC2384 data-key-5=%20% data-key-6=The%20%HMT-TRA-TC2384-001%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%Transcom%20%TC2384%20%packaged%20%pHEMT%20%transistor%20%with%20%a%20%ceramic%20%Micro-X%20%case%20%style%20%(additional%20%product%20%information%20%is%20%available%20%at%20%www.transcominc.com.tw).%20%The%20%substrate%20%and%20%temperature%20%scalable%20%model%20%is%20%based%20%on%20%the%20%extraction%20%of%20%a%20%customized%20%Angelov%20%large-signal%20%model.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%and%20%GCPW%20%printed%20%circuit%20%boards.%20%This%20%product%20%is%20%recommended%20%for%20%its%20%low%20%noise%20%characteristics%20%making%20%it%20%ideal%20%for%20%sensitive%20%receivers%20%in%20%communication%20%systemsup%20%to%20%12%20%GHz. data-key-8=PHEMT data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Transcom <td width="10%"> <a href=/models/Vendor/Transcom/TC2384.pdf target="blank">TC2384</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1412&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPHEMT%2FHMT-TRA-TC2384-001_datasheet.pdf" target="blank">HMT-TRA-TC2384-001</a> </td> <td width="10%"> Micro-X </td> <td width="10%"> PHEMT </td> <td width="10%"> 15 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> BB, NL </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=K020-03 data-key-5=%20% data-key-6=The%20%RSN-UBE-1350-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%K020-03%20%UBE%20%Industries%20%resonator.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20% data-key-8=Resonator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> UBE <td width="10%"> <a href=/models/Vendor/UBE/K020-03.pdf target="blank">K020-03</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=14&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResonator%2FRSN-UBE-1350-001_datasheet.pdf" target="blank">RSN-UBE-1350-001</a> </td> <td width="10%"> </td> <td width="10%"> Resonator </td> <td width="10%"> 4 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AO-K016-08 data-key-5=%20% data-key-6=The%20%RSN-UBE-700-001%20%is%20%a%20%substrate%20%scalable%20%model%20%for%20%the%20%%20%A0-K016-08%20%UBE%20%Industries%20%resonator.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%%20% data-key-8=Resonator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> UBE <td width="10%"> <a href=/models/Vendor/UBE/AO-K016-08.pdf target="blank">AO-K016-08</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=15&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResonator%2FRSN-UBE-700-001_datasheet.pdf" target="blank">RSN-UBE-700-001</a> </td> <td width="10%"> </td> <td width="10%"> Resonator </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Series26000 data-key-5=%20% data-key-6=The%20%INDSP-VAN-1111-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%26000%20%Series%20%surface%20%mount%20%chip%20%inductors%20%(addition%20%information%20%is%20%available%20%at%20%www.ve1.com.)%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type.%20%%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/Series26000.pdf target="blank">Series26000</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=777&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-VAN-1111-001_datasheet.pdf" target="blank">INDSP-VAN-1111-001</a> </td> <td width="10%"> 1111 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 0.01 - 10 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Series26200 data-key-5=%20% data-key-6=The%20%INDSP-VAN-1111-002%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%26200%20%series surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.ve1.com).%20%These%20%S-Parameters represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/Series26200.pdf target="blank">Series26200</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=778&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-VAN-1111-002_datasheet.pdf" target="blank">INDSP-VAN-1111-002</a> </td> <td width="10%"> 1111 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 270-470 nH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Series27000 data-key-5=%20% data-key-6=The%20%INDSP-VAN-1111-003%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%27000%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.ve1.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/Series27000.pdf target="blank">Series27000</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=779&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-VAN-1111-003_datasheet.pdf" target="blank">INDSP-VAN-1111-003</a> </td> <td width="10%"> 1111 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 15-270 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Series30000 data-key-5=%20% data-key-6=The%20%INDSP-VAN-1111-004%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%30000%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.ve1.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/Series30000.pdf target="blank">Series30000</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=780&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-VAN-1111-004_datasheet.pdf" target="blank">INDSP-VAN-1111-004</a> </td> <td width="10%"> 1111 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 0.01-15 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Series33000 data-key-5=%20% data-key-6=The%20%INDSP-VAN-1613-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%33000%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.ve1.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/Series33000.pdf target="blank">Series33000</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=781&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-VAN-1613-001_datasheet.pdf" target="blank">INDSP-VAN-1613-001</a> </td> <td width="10%"> 1613 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 0.15-820 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Series34000 data-key-5=%20% data-key-6=The%20%INDSP-VAN-1613-002%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%34000%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.ve1.com).%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/Series34000.pdf target="blank">Series34000</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=782&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-VAN-1613-002_datasheet.pdf" target="blank">INDSP-VAN-1613-002</a> </td> <td width="10%"> 1613 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 0.1-8200 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=KSeries data-key-5=%20% data-key-6=The%20%XFRSP-VAN-K-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%K%20%series%20%surface%20%mount chip%20%transformers,%20%p/n:%20%KUB55D,%20%KUB580D%20%and%20%KUU520D%20%(additional%20%information%20%is%20%available%20%at%20%www.ve1.com). These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar board%20%type. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/KSeries.pdf target="blank">KSeries</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=904&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFRSP-VAN-K-001_datasheet.pdf" target="blank">XFRSP-VAN-K-001</a> </td> <td width="10%"> 2525 </td> <td width="10%"> Transformer </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MSeries data-key-5=%20% data-key-6=The%20%XFRSP-VAN-M-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%M%20%series%20%surface%20%mount chip%20%transformers,%20%p/n:%20%MUB55D%20%and%20%MUU520D%20%(additional%20%information%20%is%20%available%20%at%20%www.ve1.com).%20%These%20%SParameters represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/MSeries.pdf target="blank">MSeries</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=905&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFRSP-VAN-M-001_datasheet.pdf" target="blank">XFRSP-VAN-M-001</a> </td> <td width="10%"> 2525 </td> <td width="10%"> Transformer </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RSeries data-key-5=%20% data-key-6=The%20%XFRSP-VAN-R-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%R%20%series%20%surface%20%mount chip%20%transformers,%20%p/n:%20%RBB55D,%20%RUB55D%20%and%20%RUB1010D%20%(additional%20%information%20%is%20%available%20%at%20%www.ve1.com). These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar board%20%type. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/RSeries.pdf target="blank">RSeries</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=906&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFRSP-VAN-R-001_datasheet.pdf" target="blank">XFRSP-VAN-R-001</a> </td> <td width="10%"> 1815 </td> <td width="10%"> Transformer </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=SSeries data-key-5=%20% data-key-6=The%20%XFRSP-VAN-S-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%S%20%series%20%surface%20%mount chip%20%transformers,%20%p/n:%20%SUB520DR%20%and%20%SUB1010DT%20%(additional%20%information%20%is%20%available%20%at%20%www.ve1.com).%20%These%20%SParameters represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type. data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/SSeries.pdf target="blank">SSeries</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=907&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFRSP-VAN-S-001_datasheet.pdf" target="blank">XFRSP-VAN-S-001</a> </td> <td width="10%"> 1815 </td> <td width="10%"> Transformer </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SP </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=Series50000 data-key-5=%20% data-key-6=The%20%INDSP-VAN-0708-001%20%is%20%a%20%part-value%20%selectable%20%S-parameter%20%data%20%model%20%for%20%the%20%Vanguard%20%33000%20%series surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.ve1.com).%20%These%20%S-Parameters represent%20%typical%20%component%20%performance%20%on%20%a%20%20%20%mil%20%thick%20%Rogers%20%4003C%20%substrate%20%or%20%similar%20%board%20%type. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/Series50000.pdf target="blank">Series50000</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=874&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FINDSP-VAN-0708-001_datasheet.pdf" target="blank">INDSP-VAN-0708-001</a> </td> <td width="10%"> 0708 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 0.12-10 uH </td> <td width="10%"> SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=100205 data-key-5=%20% data-key-6=The%20%XFR-VAN-100205-001%20%is%20%a%20%equivalent%20%circuit%20%model%20%for%20%the%20%100205%20%surface%20%mount%20%transformer%20%from%20%Vangard%20%Electronics.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications.%20%The%20%model%20%data%20%is%20%obtained%20%%20%on%20%a%20%8%20%mil%20%Park%20%Nelco%20%BT%20%N5000%20%substrate.%20%%20% data-key-8=Transformer data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vanguard <td width="10%"> <a href=/models/Vendor/Vanguard/100205.pdf target="blank">100205</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=73&amp;mdl=647&amp;returnUrl=%2Fmodels%2Fdatasheet%2FTransformer%2FXFR-VAN-100205-001_datasheet.pdf" target="blank">XFR-VAN-100205-001</a> </td> <td width="10%"> </td> <td width="10%"> Transformer </td> <td width="10%"> 2 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WBandSingleAnode data-key-5=%20% data-key-6=The%20%SKD-VDI-FLCH-001%20%is%20%a%20%bias%20%and%20%temperature%20%dependent%20%non-linear%20%model%20%for%20%the%20%Virginia%20%Diodes%20%W-band%20%%20%Single%20%Anode%20%diode.%20%The%20%model%20%was%20%extracted%20%using%20%a%20%coplanar%20%waveguide%20%(CPW)%20%fixture%20%on%20%10mil%20%Quartz%20%%20%%20%%20%%20%substrate.%20%The%20%model%20%has%20%been%20%validated%20%from%20%DC%20%to%20%125%20%GHz.. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> VDI <td width="10%"> <a href=/models/Vendor/VDI/WBandSingleAnode.pdf target="blank">WBandSingleAnode</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=35&amp;mdl=553&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-VDI-FLCH-001_datasheet.pdf" target="blank">SKD-VDI-FLCH-001</a> </td> <td width="10%"> Chip </td> <td width="10%"> Schottky </td> <td width="10%"> 125 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=NLD - Diodes data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WBandZBD data-key-5=%20% data-key-6=The%20%SKD-VDI-FLCH-002%20%is%20%a%20%bias%20%and%20%temperature%20%dependent%20%non-linear%20%model%20%for%20%the%20%Virginia%20%Diodes%20%W-band%20%%20%zero%20%bias%20%detector%20%(ZBD)%20%diode.%20%The%20%model%20%was%20%extracted%20%using%20%a%20%coplanar%20%waveguide%20%(CPW)%20%fixture%20%on%20%10mil%20%Quartz%20%substrate.%20%This%20%model%20%has%20%been%20%validated%20%from%20%DC%20%to%20%125%20%GHz. data-key-8=Schottky data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> VDI <td width="10%"> <a href=/models/Vendor/VDI/WBandZBD.pdf target="blank">WBandZBD</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=35&amp;mdl=554&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-VDI-FLCH-002_datasheet.pdf" target="blank">SKD-VDI-FLCH-002</a> </td> <td width="10%"> Chip </td> <td width="10%"> Schottky </td> <td width="10%"> 125 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, TS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=VJ0402 data-key-5=%20% data-key-6=The%20%CAP-VIS-0402-102%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%P/N%20%VJ0402%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.vishay.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/VJ0402.pdf target="blank">VJ0402</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=1114&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-VIS-0402-102_datasheet.pdf" target="blank">CAP-VIS-0402-102</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 82 pF </td> <td width="10%"> BB,SS,PS,VS,OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MMA0204 data-key-5=%20% data-key-6=The%20%RES-VIS-MMA0204-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Vishay%20%P/N%20%MMA0204%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.vishay.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/MMA0204.pdf target="blank">MMA0204</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=1162&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-VIS-MMA0204-001_datasheet.pdf" target="blank">RES-VIS-MMA0204-001</a> </td> <td width="10%"> 0204 MMA </td> <td width="10%"> Resistor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.2 – 10M Ohms </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=MCT0603 data-key-5=%20% data-key-6=The%20%RES-VIS-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Vishay%20%P%20%D11%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.vishay.com/products/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance%20%pad%20%width,%20%pad%20%gap%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/MCT0603.pdf target="blank">MCT0603</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=1163&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-VIS-0603-002_datasheet.pdf" target="blank">RES-VIS-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Resistor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 1 - 10M Ohms </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CRCW1206 data-key-5=%20% data-key-6=The%20%RES-VIS-1206-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Vishay%20%P/N%20%CRCW1206%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.vishay.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/CRCW1206.pdf target="blank">CRCW1206</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=1164&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-VIS-1206-001_datasheet.pdf" target="blank">RES-VIS-1206-001</a> </td> <td width="10%"> 1206 </td> <td width="10%"> Resistor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1 - 9.1MOhms </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=FC0402 data-key-5=%20% data-key-6=The%20%RES-VIS-0402-002-S%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Vishay%20%P/N%20%FC0402%20%surface%20%mount%20%chip%20%resistor%20%family(additional%20%information%20%is%20%available%20%at%20%(www.vishay.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/FC0402.pdf target="blank">FC0402</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=1194&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-VIS-0402-002-S_datasheet.pdf" target="blank">RES-VIS-0402-002-S</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 10 - 1000 Ohms </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CH02016 data-key-5=%20% data-key-6=The%20%RES-VIS-0201-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Vishay%20%P/N%20%CH02016%20%surface%20%mount%20%chip%20%resistor%20%family(additional%20%information%20%is%20%available%20%at%20%www.vishay.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/CH02016.pdf target="blank">CH02016</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=1176&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-VIS-0201-001_datasheet.pdf" target="blank">RES-VIS-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Resistor </td> <td width="10%"> 60 </td> <td width="10%"> </td> <td width="10%"> 10 – 500 Ohm </td> <td width="10%"> BB, SS, PS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CH0402 data-key-5=%20% data-key-6=The%20%RES-VIS-0402-003%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Vishay%20%P/N%20%CH0402%20%surface%20%mount%20%chip%20%resistor%20%family(additional%20%information%20%is%20%available%20%at%20%www.vishay.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/CH0402.pdf target="blank">CH0402</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=1177&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-VIS-0402-003_datasheet.pdf" target="blank">RES-VIS-0402-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 45 </td> <td width="10%"> </td> <td width="10%"> 10 - 500 Ohms </td> <td width="10%"> BB, SS, PS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CH0603 data-key-5=%20% data-key-6=The%20%RES-VIS-0603-003%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Vishay%20%P/N%20%CH0603%20%surface%20%mount%20%chip%20%resistor%20%family(additional%20%information%20%is%20%available%20%at%20%https://www.vishay.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/CH0603.pdf target="blank">CH0603</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=1178&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-VIS-0603-003_datasheet.pdf" target="blank">RES-VIS-0603-003</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Resistor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 10 - 500 Ohms </td> <td width="10%"> BB, SS, PS,VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=FC0402 data-key-5=%20% data-key-6=The%20%RES-VIS-0402-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Vishay%20%P/N%20%FC0402%20%surface%20%mount%20%chip%20%resistor%20%family(additional%20%information%20%is%20%available%20%at%20%(www.vishay.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/FC0402.pdf target="blank">FC0402</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=1099&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-VIS-0402-002_datasheet.pdf" target="blank">RES-VIS-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 10 - 1000 Ohms </td> <td width="10%"> BB, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=VJ0603D data-key-5=%20% data-key-6=The%20%CAP-VIS-0603-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Vishay%20%P/N%20%VJ0603%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.vishay.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequencypairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%%20%hat%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/VJ0603D.pdf target="blank">VJ0603D</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=703&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-VIS-0603-001_datasheet.pdf" target="blank">CAP-VIS-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.1-470 pF </td> <td width="10%"> SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=D10 data-key-5=%20% data-key-6=The%20%RES-VIS-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Vishay%20%P/N%20%D10%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.vishay.com/products/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance%20%pad%20%width,%20%pad%20%gap%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/D10.pdf target="blank">D10</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=12&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-VIS-0402-001_datasheet.pdf" target="blank">RES-VIS-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1 Ohm - 1M Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=D11 data-key-5=%20% data-key-6=The%20%RES-VIS-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Vishay%20%P/N%20%D11%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.vishay.com/products/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance%20%pad%20%width,%20%pad%20%gap%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/D11.pdf target="blank">D11</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=13&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-VIS-0603-001_datasheet.pdf" target="blank">RES-VIS-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 0 - 2.21M Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=HPC0402A data-key-5=%20% data-key-6=The%20%CAP-VIS-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Mode%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%wit%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/HPC0402A.pdf target="blank">HPC0402A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=8&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-VIS-0402-001_datasheet.pdf" target="blank">CAP-VIS-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.2 pF - 180 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=Sparams data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=FCHP0402 data-key-5=%20% data-key-6=The%20%RESSP-VIS-0402-001%20%is%20%a%20%S-parameter%20%data%20%model%20%for%20%the%20%Vishay%20%FCHP0402%20%series%20%surface%20%mount%20%chip%20%resistors%20%(additional%20%information%20%is%20%available%20%at%20%www.vishay.com).%20%The%20%50-ohm%20%and%20%100-ohm%20%resistors%20%in%20%this%20%%20%series%20%come%20%in%20%Flip-chip%20%and%20%Wraparound%20%Terminations%20%and%20%are%20%selectable%20%in%20%this%20%S-parameter%20%data%20%model.%20%%20%These%20%S-Parameters%20%represent%20%typical%20%component%20%performance%20%on%20%a%20%6.6%20%mil%20%thick%20%Rogers%20%4350B%20%substrate.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Vishay <td width="10%"> <a href=/models/Vendor/Vishay/FCHP0402.pdf target="blank">FCHP0402</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=5&amp;mdl=1312&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRESSP-VIS-0402-001_datasheet.pdf" target="blank">RESSP-VIS-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Resistor </td> <td width="10%"> 60 </td> <td width="10%"> </td> <td width="10%"> 50 and 100 Ohm </td> <td width="10%"> BB, VS, SP </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RK0603ZZ data-key-5=%20% data-key-6=The%20%RES-BAI-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RK0603ZZ%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/RK0603ZZ.pdf target="blank">RK0603ZZ</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=503&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-0603-001_datasheet.pdf" target="blank">RES-BAI-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50-100 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RE0805CT data-key-5=%20% data-key-6=The%20%RES-BAI-0805-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RE0805CT%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/RE0805CT.pdf target="blank">RE0805CT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=504&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-0805-001_datasheet.pdf" target="blank">RES-BAI-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50-100 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RY0805CT data-key-5=%20% data-key-6=The%20%RES-BAI-0805-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RY0805CT%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/RY0805CT.pdf target="blank">RY0805CT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=505&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-0805-002_datasheet.pdf" target="blank">RES-BAI-0805-002</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50-100 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RE1005CT data-key-5=%20% data-key-6=The%20%RES-BAI-1005-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RE1005CT%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/RE1005CT.pdf target="blank">RE1005CT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=506&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-1005-001_datasheet.pdf" target="blank">RES-BAI-1005-001</a> </td> <td width="10%"> 1005 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50-100 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RY1005CT data-key-5=%20% data-key-6=The%20%RES-BAI-1005-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RY1005CT%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/RY1005CT.pdf target="blank">RY1005CT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=507&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-1005-002_datasheet.pdf" target="blank">RES-BAI-1005-002</a> </td> <td width="10%"> 1005 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50-100 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=REC1206CT data-key-5=%20% data-key-6=The%20%RES-BAI-1206-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RE1206CT%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/REC1206CT.pdf target="blank">REC1206CT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=508&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-1206-001_datasheet.pdf" target="blank">RES-BAI-1206-001</a> </td> <td width="10%"> 1206 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50-100 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RYC1206CT data-key-5=%20% data-key-6=The%20%RES-BAI-1206-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RYC1206CT%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/RYC1206CT.pdf target="blank">RYC1206CT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=509&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-1206-002_datasheet.pdf" target="blank">RES-BAI-1206-002</a> </td> <td width="10%"> 1206 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50-100 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RZC1206CT(2-port) data-key-5=%20% data-key-6=The%20%RES-BAI-1206-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RZC1206CT%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/RZC1206CT(2-port).pdf target="blank">RZC1206CT(2-port)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=510&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-1206-003_datasheet.pdf" target="blank">RES-BAI-1206-003</a> </td> <td width="10%"> 1206 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50-100 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RZC1206CT(1-port) data-key-5=%20% data-key-6=The%20%RES-BAI-1206-004%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RZC1206CT%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/RZC1206CT(1-port).pdf target="blank">RZC1206CT(1-port)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=511&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-1206-004_datasheet.pdf" target="blank">RES-BAI-1206-004</a> </td> <td width="10%"> 1206 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50-100 Ohms </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AK0405CB data-key-5=%20% data-key-6=The%20%ATT-BAI-0405-001%20%family%20%are%20%substrate%20%scalable%20%models%20%for%20%attenuators%20%from%20%Barry%20%Industries%20%P/N%20%AK0405CB.%20%%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%attenuation%20%values%20%within%20%the%20%valid%20%range. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/AK0405CB.pdf target="blank">AK0405CB</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=42&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-BAI-0405-001_datasheet.pdf" target="blank">ATT-BAI-0405-001</a> </td> <td width="10%"> 79A </td> <td width="10%"> Attenuator </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 2 -16 DB </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AT0904CB data-key-5=%20% data-key-6=The%20%ATT-BAI-0904-001%20%family%20%are%20%substrate%20%scalable%20%models%20%for%20%attenuators%20%from%20%Barry%20%Industries%20%P/N%20%AT0904CB.%20%%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Modelis%20%available%20%which%20%accurately%20%emulates%20%all%20%attenuation%20%values%20%within%20%the%20%valid%20%range. data-key-8=Attenuator data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/AT0904CB.pdf target="blank">AT0904CB</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=43&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-BAI-0904-001_datasheet.pdf" target="blank">ATT-BAI-0904-001</a> </td> <td width="10%"> 79A </td> <td width="10%"> Attenuator </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 2- 32 DB </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN5532-050x data-key-5=%20% data-key-6=The%20%PKG-BAI-QFN5532-001%20%is%20%a%20%simulation%20%based%20%equivalent%20%circuit%20%model%20%of%20%Barry%20%industries%20%P/N%20%QFN5532-050x%20%molded%20%5%20%mm%20%Quad%20%Flat%20%No%20%lead%20%(QFN)%20%surface%20%mount%20%package.%20%Ansys%20%HFSS%20%3D%20%simulation%20%data%20%was%20%used%20%to%20%create%20%model.%20%%20%Simulation%20%results%20%and%20%model%20%validated%20%against%20%measured%20%data%20%to%20%40%20%GHz%20%in%20%multiple%20%measurement%20%environments.%20%%20%Additional%20%package%20%information%20%is%20%available%20%at%20%www.barryind.com.%20%%20%%20% data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN5532-050x.pdf target="blank">QFN5532-050x</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=743&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN5532-001_datasheet.pdf" target="blank">PKG-BAI-QFN5532-001</a> </td> <td width="10%"> 5mm Package </td> <td width="10%"> Package </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RE0805CT data-key-5=%20% data-key-6=The%20%RES-BAI-0805-001-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RE0805CTsurface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%model%20%isintended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasiticeffects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%mounting%20%pad%20%metal%20%thickness,%20%and%20%componenttolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairsbeyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%GlobalModel™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistor%20%range.%20%A%20%Sim_modeswitch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/RE0805CT.pdf target="blank">RE0805CT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1016&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-0805-001-S_datasheet.pdf" target="blank">RES-BAI-0805-001-S</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50 - 100 Ohm </td> <td width="10%"> BB, PS, SS </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN3312-0520 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN3312-0520.pdf target="blank">QFN3312-0520</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1237&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN33120520-001_datasheet.pdf" target="blank">PKG-BAI-QFN33120520-001</a> </td> <td width="10%"> 3mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN3312-0521 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN3312-0521.pdf target="blank">QFN3312-0521</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1238&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN33120521-001_datasheet.pdf" target="blank">PKG-BAI-QFN33120521-001</a> </td> <td width="10%"> 3mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN3312-0522 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN3312-0522.pdf target="blank">QFN3312-0522</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1239&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN33120522-001_datasheet.pdf" target="blank">PKG-BAI-QFN33120522-001</a> </td> <td width="10%"> 3mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN4420-0520 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN4420-0520.pdf target="blank">QFN4420-0520</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1240&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN44200520-001_datasheet.pdf" target="blank">PKG-BAI-QFN44200520-001</a> </td> <td width="10%"> 4mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN4420-0521 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN4420-0521.pdf target="blank">QFN4420-0521</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1241&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN44200521-001_datasheet.pdf" target="blank">PKG-BAI-QFN44200521-001</a> </td> <td width="10%"> 4mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN4420-0522 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN4420-0522.pdf target="blank">QFN4420-0522</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1242&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN44200522-001_datasheet.pdf" target="blank">PKG-BAI-QFN44200522-001</a> </td> <td width="10%"> 4mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN4424-0520 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN4424-0520.pdf target="blank">QFN4424-0520</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1243&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN44240520-001_datasheet.pdf" target="blank">PKG-BAI-QFN44240520-001</a> </td> <td width="10%"> 4mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN4424-0521 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN4424-0521.pdf target="blank">QFN4424-0521</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1244&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN44240521-001_datasheet.pdf" target="blank">PKG-BAI-QFN44240521-001</a> </td> <td width="10%"> 4mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN4424-0522 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN4424-0522.pdf target="blank">QFN4424-0522</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1245&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN44240522-001_datasheet.pdf" target="blank">PKG-BAI-QFN44240522-001</a> </td> <td width="10%"> 4mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN6636-0520 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN6636-0520.pdf target="blank">QFN6636-0520</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1246&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN66360520-001_datasheet.pdf" target="blank">PKG-BAI-QFN66360520-001</a> </td> <td width="10%"> 6mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN6636-0521 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN6636-0521.pdf target="blank">QFN6636-0521</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1247&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN66360521-001_datasheet.pdf" target="blank">PKG-BAI-QFN66360521-001</a> </td> <td width="10%"> 6mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN6636-0522 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN6636-0522.pdf target="blank">QFN6636-0522</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1248&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN66360522-001_datasheet.pdf" target="blank">PKG-BAI-QFN66360522-001</a> </td> <td width="10%"> 6mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN7744-0520 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN7744-0520.pdf target="blank">QFN7744-0520</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1249&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN77440520-001_datasheet.pdf" target="blank">PKG-BAI-QFN77440520-001</a> </td> <td width="10%"> 7mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN7744-0521 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN7744-0521.pdf target="blank">QFN7744-0521</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1250&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN77440521-001_datasheet.pdf" target="blank">PKG-BAI-QFN77440521-001</a> </td> <td width="10%"> 7mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN7744-0522 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN7744-0522.pdf target="blank">QFN7744-0522</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1251&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN77440522-001_datasheet.pdf" target="blank">PKG-BAI-QFN77440522-001</a> </td> <td width="10%"> 8mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN8848-0520 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN8848-0520.pdf target="blank">QFN8848-0520</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1252&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN88480520-001_datasheet.pdf" target="blank">PKG-BAI-QFN88480520-001</a> </td> <td width="10%"> 8mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN8848-0521 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN8848-0521.pdf target="blank">QFN8848-0521</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1253&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN88480521-001_datasheet.pdf" target="blank">PKG-BAI-QFN88480521-001</a> </td> <td width="10%"> 8mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=QFN8848-0522 data-key-5=%20% data-key-6=n/a data-key-8=Package data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> BARRY <td width="10%"> <a href=/models/Vendor/BARRY/QFN8848-0522.pdf target="blank">QFN8848-0522</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1254&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-BAI-QFN88480522-001_datasheet.pdf" target="blank">PKG-BAI-QFN88480522-001</a> </td> <td width="10%"> 8mm Package </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> 3D </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-TCI data-key-5=%20% data-key-6=The%20%IND-WTH-0402-103%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%WE-TCI%20%0402%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%http://www.we-online.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%at%20%least%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-TCI.pdf target="blank">WE-TCI</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1344&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0402-103_datasheet.pdf" target="blank">IND-WTH-0402-103</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 1.0 - 27 nH </td> <td width="10%"> BB, SS, VS,PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-KI data-key-5=%20% data-key-6=The%20%IND-WTH-0402-102%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%744765xxxA%20%WEKI%20%0402%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-KI.pdf target="blank">WE-KI</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1485&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0402-102_datasheet.pdf" target="blank">IND-WTH-0402-102</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 1 – 120 nH </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-MK data-key-5=%20% data-key-6=The%20%IND-WTH-0402-005-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%7447840xxx%20%WE-MK%20%0402%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%http://www.weonline.%20%com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-MK.pdf target="blank">WE-MK</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1494&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0402-005-S_datasheet.pdf" target="blank">IND-WTH-0402-005-S</a> </td> <td width="10%"> 0301 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1 – 51 nH </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=74279223560 data-key-5=%20% data-key-6=The%20%FBD-WTH-1612-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%74279223560%20%%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a%20%temperature%20%of%20%25%20%C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/74279223560.pdf target="blank">74279223560</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=736&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-1612-001_datasheet.pdf" target="blank">FBD-WTH-1612-001</a> </td> <td width="10%"> 1612 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-MK data-key-5=%20% data-key-6=The%20%IND-WTH-0603-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%WEMK 0603A%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%http://www.we-online.com/).%20%The models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WE-MK target="blank">WE-MK</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=794&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0603-001_datasheet.pdf" target="blank">IND-WTH-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1 - 470 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-KI data-key-5=%20% data-key-6=The%20%IND-WTH-0603-002%20%is%20%a%20%substrate%20%scalable%20%MicrowaveGlobal%20%Model™%20%for%20%the%20%Wuerth%20%P/N%20%WE-KI%20%series surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for%20%use%20%with microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WE-KI target="blank">WE-KI</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=795&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0603-002_datasheet.pdf" target="blank">IND-WTH-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1.6 - 1000 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CBA0402WideBand data-key-5=%20% data-key-6=The%20%FBD-WTH-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%Wide%20%Band%20%WECBA 0402%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single, substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WE-CBA target="blank">WE-CBA0402WideBand</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=870&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-0402-001_datasheet.pdf" target="blank">FBD-WTH-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 100 - 1000 Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CBA0402HighCurrent data-key-5=%20% data-key-6=The%20%FBD-WTH-0402-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%High%20%Current%20%WECBA 0402%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single, substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WE-CBA target="blank">WE-CBA0402HighCurrent</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=871&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-0402-002_datasheet.pdf" target="blank">FBD-WTH-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 10 - 70 Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WCAP-CSMH(NP0) data-key-5=%20% data-key-6=The%20%CAP-WTH-0603-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Wurth%20%Elektronik%20%P/N WCAP-CSMH%20%0603%20%(NP0)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.weonline. com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness, component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WCAP-CSMH target="blank">WCAP-CSMH(NP0)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=831&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-WTH-0603-001_datasheet.pdf" target="blank">CAP-WTH-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 10-200 PF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WCAP-CSMH(NP0) data-key-5=%20% data-key-6=The%20%CAP-WTH-0805-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Wurth%20%Elektronik%20%P/N WCAP-CSMH%20%0805%20%(NP0)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.weonline. com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness, component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%A%20%single, substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WCAP-CSMH target="blank">WCAP-CSMH(NP0)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=832&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-WTH-0805-001_datasheet.pdf" target="blank">CAP-WTH-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 15-2200 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WCAP-CSMH(X7r)0.8mm data-key-5=%20% data-key-6=The%20%CAP-WTH-0805-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Wurth%20%Elektronik%20%P/N WCAP-CSMH%20%0805%20%(X7R,%20%part%20%height%20%=%20%0.8%20%mm)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate (or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency. A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WCAP-CSMH target="blank">WCAP-CSMH(X7r)0.8mm</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=833&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-WTH-0805-002_datasheet.pdf" target="blank">CAP-WTH-0805-002</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 100-4700 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WCAP-CSMH(X7R)1.25mm data-key-5=%20% data-key-6=The%20%CAP-WTH-0805-003%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Wurth%20%Elektronik%20%P/N WCAP-CSMH%20%0805%20%(X7R,%20%part%20%height%20%=%20%1.25%20%mm)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate (or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency. A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WCAP-CSMH target="blank">WCAP-CSMH(X7R)1.25mm</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=834&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-WTH-0805-003_datasheet.pdf" target="blank">CAP-WTH-0805-003</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 100 pF- 22 nF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-MK data-key-5=%20% data-key-6=The%20%IND-WTH-0402-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%WE-MK%20%0402%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%http://www.we-online.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WE-MK target="blank">WE-MK</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=694&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0402-001_datasheet.pdf" target="blank">IND-WTH-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1 - 270 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-TCI data-key-5=%20% data-key-6=The%20%IND-WTH-0402-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%WE-TCI%20%0402%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%http://www.we-online.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WE-TCI target="blank">WE-TCI</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=696&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0402-003_datasheet.pdf" target="blank">IND-WTH-0402-003</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1 - 27 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CAIR data-key-5=%20% data-key-6=The%20%IND-WTH-5910-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%P/N%20%WE-CAIR%20%5910%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%value,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%MicrowaveGlobal%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-CAIR.pdf target="blank">WE-CAIR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1095&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-5910-001_datasheet.pdf" target="blank">IND-WTH-5910-001</a> </td> <td width="10%"> 5910 </td> <td width="10%"> Inductor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 90 - 538 nH </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CBA0603WideBand data-key-5=%20% data-key-6=The%20%FBD-WTH-0603-002-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%Wide%20%Band%20%WECBA%20%0603%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The%20%model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input%20%parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a%20%temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-CBA0603WideBand.pdf target="blank">WE-CBA0603WideBand</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1195&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-0603-002-S_datasheet.pdf" target="blank">FBD-WTH-0603-002-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 9 </td> <td width="10%"> </td> <td width="10%"> 62 - 1000 Ohms </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-KIHC data-key-5=%20% data-key-6=The%20%IND-WTH-0402-004%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%P/N%20%WE-KI%20%HC%20%0402 series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-KIHC.pdf target="blank">WE-KIHC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1000&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0402-004_datasheet.pdf" target="blank">IND-WTH-0402-004</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1.0 - 51 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-KIHC data-key-5=%20% data-key-6=The%20%IND-WTH-0603-003%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%P/N%20%WE-KI%20%HC%20%0603 series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-KIHC.pdf target="blank">WE-KIHC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1001&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0603-003_datasheet.pdf" target="blank">IND-WTH-0603-003</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1.8-390 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CAIR data-key-5=%20% data-key-6=The%20%IND-WTH-1322-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%P/N%20%WE-CAIR%20%1322 series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%DC resistance.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-CAIR.pdf target="blank">WE-CAIR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1002&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-1322-001_datasheet.pdf" target="blank">IND-WTH-1322-001</a> </td> <td width="10%"> 1322 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1.65-5.45 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CAIR data-key-5=%20% data-key-6=The%20%IND-WTH-1340-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%P/N%20%WE-CAIR%20%1340 series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%DC resistance.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-CAIR.pdf target="blank">WE-CAIR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1003&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-1340-001_datasheet.pdf" target="blank">IND-WTH-1340-001</a> </td> <td width="10%"> 1340 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 5.6-12.55 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CAIR data-key-5=%20% data-key-6=The%20%IND-WTH-3136-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%P/N%20%WE-CAIR%20%3136 series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%DC series%20%resistance.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-CAIR.pdf target="blank">WE-CAIR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1004&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-3136-001_datasheet.pdf" target="blank">IND-WTH-3136-001</a> </td> <td width="10%"> 3136 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 2.5-18.5 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CAIR data-key-5=%20% data-key-6=The%20%IND-WTH-3168-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%P/N%20%WE-CAIR%20%3168 series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%DC resistance.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-CAIR.pdf target="blank">WE-CAIR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1005&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-3168-001_datasheet.pdf" target="blank">IND-WTH-3168-001</a> </td> <td width="10%"> 3168 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 17.5 - 43 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CAIR data-key-5=%20% data-key-6=The%20%IND-WTH-4248-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%P/N%20%WE-CAIR%20%4248 series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%DC resistance.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-CAIR.pdf target="blank">WE-CAIR</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1006&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-4248-001_datasheet.pdf" target="blank">IND-WTH-4248-001</a> </td> <td width="10%"> 4248 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 22 - 120 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-MK data-key-5=%20% data-key-6=The%20%IND-WTH-0402-001-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%WE-MK%20%0402%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%http://www.we-online.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WE-MK target="blank">WE-MK</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1018&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0402-001-S_datasheet.pdf" target="blank">IND-WTH-0402-001-S</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1 - 270 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-ACHC data-key-5=%20% data-key-6=The%20%IND-WTH-1010-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%WE-AC%20%HC%20%1010%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%DC%20%resistance.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-ACHC.pdf target="blank">WE-ACHC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1034&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-1010-001_datasheet.pdf" target="blank">IND-WTH-1010-001</a> </td> <td width="10%"> 1010 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 23 - 146 nH </td> <td width="10%"> BB, PS, SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-ACHC data-key-5=%20% data-key-6=The%20%IND-WTH-1212-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%WE-AC%20%HC%20%1212%20%series%20%surface%20%mount%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%DC%20%resistance.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-ACHC.pdf target="blank">WE-ACHC</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1035&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-1212-001_datasheet.pdf" target="blank">IND-WTH-1212-001</a> </td> <td width="10%"> 1212 </td> <td width="10%"> Inductor </td> <td width="10%"> 6 </td> <td width="10%"> </td> <td width="10%"> 22 - 117nH </td> <td width="10%"> BB, PS, SS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WCAP-CSRF(NP0) data-key-5=%20% data-key-6=The%20%CAP-WTH-0201-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Wurth%20%Elektronik%20%P/N%20%WCAPCSRF 0201%20%(NP0)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com). The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WCAP-CSRF(NP0).pdf target="blank">WCAP-CSRF(NP0)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1047&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-WTH-0201-001_datasheet.pdf" target="blank">CAP-WTH-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.2-33 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WCAP-CSRF(NP0) data-key-5=%20% data-key-6=The%20%CAP-WTH-0402-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Wurth%20%Elektronik%20%P/N WCAP-CSRF%20%0402%20%(NP0)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at http://www.we-online.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency. The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WCAP-CSRF(NP0).pdf target="blank">WCAP-CSRF(NP0)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1048&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-WTH-0402-001_datasheet.pdf" target="blank">CAP-WTH-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0.3-9 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WCAP-CSMH(X7R) data-key-5=%20% data-key-6=The%20%CAP-WTH-0603-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Wurth%20%Elektronik%20%P/N WCAP-CSMH%20%0603%20%(X7R)%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.weonline. com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness, component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WCAP-CSMH(X7R).pdf target="blank">WCAP-CSMH(X7R)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1049&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-WTH-0603-002_datasheet.pdf" target="blank">CAP-WTH-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 100-10,000 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CBA0603HighSpeed data-key-5=%20% data-key-6=The%20%FBD-WTH-0603-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%High%20%Speed%20%WECBA 0603%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single, substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-CBA0603HighSpeed.pdf target="blank">WE-CBA0603HighSpeed</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1050&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-0603-001_datasheet.pdf" target="blank">FBD-WTH-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 9 </td> <td width="10%"> </td> <td width="10%"> 100-1800 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CBA0603WideBand data-key-5=%20% data-key-6=The%20%FBD-WTH-0603-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%Wide%20%Band%20%WECBA 0603%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single, substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-CBA0603WideBand.pdf target="blank">WE-CBA0603WideBand</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1051&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-0603-002_datasheet.pdf" target="blank">FBD-WTH-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 9 </td> <td width="10%"> </td> <td width="10%"> 62-1000 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-CBA0603HighCurrent data-key-5=%20% data-key-6=The%20%FBD-WTH-0603-003%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%High%20%Current%20%WECBA 0603%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single, substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WE-CBA0603HighCurrent.pdf target="blank">WE-CBA0603HighCurrent</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1052&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-0603-003_datasheet.pdf" target="blank">FBD-WTH-0603-003</a> </td> <td width="10%"> 0603 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 62-600 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WECBA0805HighSpeed data-key-5=%20% data-key-6=The%20%FBD-WTH-0805-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%High%20%Speed%20%WECBA 0805%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single, substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WECBA0805HighSpeed.pdf target="blank">WECBA0805HighSpeed</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1053&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-0805-001_datasheet.pdf" target="blank">FBD-WTH-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1000-2200 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WECBA0805HighCurrent data-key-5=%20% data-key-6=The%20%FBD-WTH-0805-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%High%20%Speed%20%WECBA 0805%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single, substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WECBA0805HighCurrent.pdf target="blank">WECBA0805HighCurrent</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1054&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-0805-002_datasheet.pdf" target="blank">FBD-WTH-0805-002</a> </td> <td width="10%"> 0805 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 20-560 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WECBA1206WideBand data-key-5=%20% data-key-6=The%20%FBD-WTH-1206-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%Wide%20%Band%20%WECBA 1206%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single, substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WECBA1206WideBand.pdf target="blank">WECBA1206WideBand</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1055&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-1206-001_datasheet.pdf" target="blank">FBD-WTH-1206-001</a> </td> <td width="10%"> 1206 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 300 Ohm </td> <td width="10%"> SS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WECBA1206HighCurrent data-key-5=%20% data-key-6=The%20%FBD-WTH-1206-002%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%High%20%Current%20%WECBA 1206%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single, substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WECBA1206HighCurrent.pdf target="blank">WECBA1206HighCurrent</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1056&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-1206-002_datasheet.pdf" target="blank">FBD-WTH-1206-002</a> </td> <td width="10%"> 1206 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 82-1000 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WECBA1806HighCureent data-key-5=%20% data-key-6=The%20%FBD-WTH-1806-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%High%20%Current%20%WECBA 1806%20%surface%20%mount%20%chip%20%ferrite%20%bead%20%(additional%20%information%20%is%20%available%20%at%20%www.we-online.com).%20%A%20%single, substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%the%20%ferrite%20%bead.%20%The model%20%is%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%metal%20%thickness,%20%and%20%pad%20%dimensions%20%are%20%model%20%input parameters.%20%Accurate%20%impedance%20%and%20%S-parameters%20%vs%20%bias%20%are%20%modeled%20%over%20%the%20%valid%20%frequency%20%range%20%at%20%a temperature%20%of%20%25˚C.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=FerriteBead data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Wurth <td width="10%"> <a href=/models/Vendor/Wurth/WECBA1806HighCureent.pdf target="blank">WECBA1806HighCureent</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1057&amp;returnUrl=%2Fmodels%2Fdatasheet%2FFerriteBead%2FFBD-WTH-1806-001_datasheet.pdf" target="blank">FBD-WTH-1806-001</a> </td> <td width="10%"> 1806 </td> <td width="10%"> FerriteBead </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 56-82 Ohm </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AQ0402 data-key-5=%20% data-key-6=The%20%CAP-YAG-0402-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Yageo%20%P/N%20%AQ0402%20%Automotive%20%grade%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.yageo.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%at%20%least%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Yageo <td width="10%"> <a href=/models/Vendor/Yageo/AQ0402.pdf target="blank">AQ0402</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1345&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-YAG-0402-002_datasheet.pdf" target="blank">CAP-YAG-0402-002</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 100 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CQ0603 data-key-5=%20% data-key-6=The%20%CAP-YAG-0603-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Yageo%20%P/N%20%CQ0603%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.yageo.com/).%20%The%20%models%20%are%20%foruse%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Modelsaccount%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%padscalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%allcapacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Yageo <td width="10%"> <a href=/models/Vendor/Yageo/CQ0603.pdf target="blank">CQ0603</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1346&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-YAG-0603-001_datasheet.pdf" target="blank">CAP-YAG-0603-001</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.2 - 100 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=AQ0603 data-key-5=%20% data-key-6=The%20%CAP-YAG-0603-002%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Yageo%20%P/N%20%AQ0603%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.yageo.com/).%20%The%20%models%20%are%20%foruse%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Modelsaccount%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%padscalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%allcapacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Yageo <td width="10%"> <a href=/models/Vendor/Yageo/AQ0603.pdf target="blank">AQ0603</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1347&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-YAG-0603-002_datasheet.pdf" target="blank">CAP-YAG-0603-002</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.2 - 100 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CQ0201 data-key-5=%20% data-key-6=The%20%CAP-YAG-0201-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Yageo%20%P/N%20%CQ0201%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.yageo.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad%20%scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Yageo <td width="10%"> <a href=/models/Vendor/Yageo/CQ0201.pdf target="blank">CQ0201</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1324&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-YAG-0201-001_datasheet.pdf" target="blank">CAP-YAG-0201-001</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 39 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CQ0402 data-key-5=%20% data-key-6=The%20%CAP-YAG-0402-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Yageo%20%P/N%20%CQ0402%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.yageo.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%component%20%value,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap,%20%and%20%orientation%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable,%20%pad%20%scalable,%20%and%20%orientation%20%selectable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Yageo <td width="10%"> <a href=/models/Vendor/Yageo/CQ0402.pdf target="blank">CQ0402</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1325&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-YAG-0402-001_datasheet.pdf" target="blank">CAP-YAG-0402-001</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 100 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RC0100 data-key-5=%20% data-key-6=The%20%RES-YAG-01005-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Yageo%20%P/N%20%RC0100%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%http://www.yageo.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Yageo <td width="10%"> <a href=/models/Vendor/Yageo/RC0100.pdf target="blank">RC0100</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1215&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-YAG-01005-001_datasheet.pdf" target="blank">RES-YAG-01005-001</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Resistor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 0 – 10M Ohms </td> <td width="10%"> BB, SS, VS, PS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CQ0805 data-key-5=%20% data-key-6=The%20%CAP-YAG-0805-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Yageo%20%P/N%20%CQ0805%20%Commercial%20%grade%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.yageo.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Yageo <td width="10%"> <a href=/models/Vendor/Yageo/CQ0805.pdf target="blank">CQ0805</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1448&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-YAG-0805-001_datasheet.pdf" target="blank">CAP-YAG-0805-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.2-100 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=CQ0100 data-key-5=%20% data-key-6=The%20%CAP-YAG-01005-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Yageo%20%P/N%20%CQ0100 surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.yageo.com).%20%The%20%models%20%are%20%for use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects. Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Yageo <td width="10%"> <a href=/models/Vendor/Yageo/CQ0100.pdf target="blank">CQ0100</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1452&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-YAG-01005-001_datasheet.pdf" target="blank">CAP-YAG-01005-001</a> </td> <td width="10%"> 01005 </td> <td width="10%"> Capacitor </td> <td width="10%"> 67 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 15 pF </td> <td width="10%"> BB, SS, PS, VS, OS </td> </tr> <tr data-key-1=CLR - Passives data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=RC0201 data-key-5=%20% data-key-6=The%20%RES-YAG-0201-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Yageo%20%P/N%20%RC0201%20%surface%20%mount%20%chip%20%resistor%20%family(additional%20%information%20%is%20%available%20%at%20%www.yageo.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="%20%" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Yageo <td width="10%"> <a href=/models/Vendor/Yageo/RC0201.pdf target="blank">RC0201</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=1486&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-YAG-0201-001_datasheet.pdf" target="blank">RES-YAG-0201-001</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Resistor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> 0 – 10M Ohm </td> <td width="10%"> BB, SS, PS, VS </td> </tr> </tbody> </table> </div> </div> <div class="row"> <div class="col-md-9"> <h4 class="HeaderTitle">Legend</h4> </div> <div class="col-md-3"> &nbsp; </div> </div> <div class="row"> <div class="col-md-5"> <dl class="dl-horizontal"> <dt class="text-danger">3D</dt> <dd class="text-danger">3D Model</dd> <dt class="text-success">BB</dt> <dd class="text-success"> Broadband Component</dd> <dt class="text-primary">BRK</dt> <dd class="text-primary">3D Brick EM Models™</dd> <dt class="text-info">BW</dt> <dd class="text-info"> Bondwire de-embedding</dd> <dt class="text-success">DRS</dt> <dd class="text-success"> Dynamic Range Selection</dd> <dt class="text-muted">EB</dt> <dd class="text-muted"> Embedded Model</dd> <dt class="text-muted">FL</dt> <dd class="text-muted"> Flicker Noise (1/F)</dd> <dt class="text-warning">IM</dt> <dd class="text-warning"> 3rd order IMD validated</dd> <dt class="text-danger">LP</dt> <dd class="text-danger"> Load Pull</dd> <dt class="text-primary">NL</dt> <dd class="text-primary"> Non-Linear</dd> <dt class="redletters"><img src="/Images/Misc/RedAsterisks8.png" /></dt> <dd> Discontinued or not recommended <br /> for new designs</dd> </dl> </div> <div class="col-md-5 pull-left"> <dl class="dl-horizontal"> <dt class="text-success">NP</dt> <dd class="text-success"> Noise Parameter</dd> <dt class="text-info">OS</dt> <dd class="text-info"> Orientation Selectable</dd> <dt class="text-muted">PD</dt> <dd class="text-muted"> Pad De-embedding</dd> <dt class="text-warning">PS</dt> <dd class="text-warning"> Pad Scaling</dd> <dt class="text-danger">SP</dt> <dd class="text-danger"> S-Parameter Data Model</dd> <dt class="text-primary">SS</dt> <dd class="text-primary"> Substrate Scalable</dd> <dt class="text-primary">SM</dt> <dd class="text-primary"> Super Model</dd> <dt class="text-success">TS</dt> <dd class="text-success"> Temperature Scalable</dd> <dt class="text-info">VS</dt> <dd class="text-info"> Part Value Scalable/Selectable</dd> <dt class="text-primary">XP</dt> <dd class="text-primary"> X-Parameter Data Model</dd> </dl> </div> <div class="col-md-3 pull-left"> <dl class="dl-horizontal"></dl> </div> </div> </div> </div> <div id="xparams" class="tab-pane"> <div class="row"> <div class="col-md-4"> <h4 class="HeaderListGroup">Modelithics Services</h4> <p> <a href="/Downloads/Brochures/X-Parameters_Meas_Update.pdf">*X-Parameter Measurement and Modeling Service</a> </p> <p> <a href="/Downloads/Brochures/X-Parameter_Conversion_0502_update.pdf">Unleash Compact Transistor Models With X-Parameter Technology</a> </p> <p> <img src="/Images/Logo/Keysight/Keysight_CP_SolutionsPartner_Clr_RGB.png" width="290" height="110" /> </p> </div> <div class="col-md-7"> <h4 class=" HeaderListGroup ">*X-parameter Models</h4> <div class="container"> <div class="row"> <div class="col-md-7 "> <!-- Products Table --> <table class="table table-striped table-hover display compact table-responsive"> <thead> <tr class="text-products"> <th>More Info</th> <th width="10%"> Vendor </th> <th width="10%"> <img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /> &nbsp; Part Number </th> <th width="10%"> <img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" />&nbsp; Model </th> <th width="10%"> Body Style </th> <th width="10%"> Component </th> <th width="10%"> Max Freq (GHz) </th> <th width="10%"> Power Out (dBm) </th> <th width="10%"> Features </th> </tr> </thead> <tbody> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=AH101 data-key-5=%20% data-key-6=The%20%AMPXP-TRI-AH101-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%TriQuint%20%AH101%20%medium%20%power,%20%high%20%linearity%20%amplifier%20%in%20%SOT-89%20%package.%20%%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05-1.5%20%GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo </td> <td width="10%"> <a href=/models/Vendor/Qorvo/AH101.pdf target="blank">AH101</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=38&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-TQT-AH101-001_datasheet.pdf" target="blank">AMPXP-TQT-AH101-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 15 </td> <td width="10%"> 26.5 </td> <td width="10%"> NL, XP, SP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=GVA-62plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-GVA62plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits&#174;%20%GVA-62+%20%flat%20%gain,%20%high%20%linearity%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.01-6%20%GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/GVA-62plus.pdf target="blank">GVA-62plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=27&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-GVA62plus-001_datasheet.pdf" target="blank">AMPXP-MCL-GVA62plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 18 </td> <td width="10%"> 19.8 </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=GVA-63plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-GVA63plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits&#174;%20%GVA-63+%20%high%20%gain,%20%high%20%linearity%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.01-6%20%GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/Xparameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/GVA-63plus.pdf target="blank">GVA-63plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=28&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-GVA63plus-001_datasheet.pdf" target="blank">AMPXP-MCL-GVA63plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 18 </td> <td width="10%"> 19.0 </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=GVA-84plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-GVA84plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits%20%GVA-84+%20%wideband%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%DC-7GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/GVA-84plus.pdf target="blank">GVA-84plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=29&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-GVA84plus-001_datasheet.pdf" target="blank">AMPXP-MCL-GVA84plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 20.5 </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=MAAL-010704 data-key-5=%20% data-key-6=The%20%AMPXP-MAC-MAAL010704-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%MACOM%20%MAAL-010704%20%single stage%20%MMIC%20%low%20%noise%20%amplifier%20%in%20%a%20%SOT-363%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.1-3.5GHz%20%applications and%20%offers%20%an%20%excellent%20%dynamic%20%range,%20%and%20%requires%20%no%20%external%20%matching.%20%A%20%combination%20%of%20%S-Parameter%20%with noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MACOM </td> <td width="10%"> <a href=/models/Vendor/MACOM/MAAL-010704.pdf target="blank">MAAL-010704</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=929&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MAC-MAAL010704-001_datasheet.pdf" target="blank">AMPXP-MAC-MAAL010704-001</a> </td> <td width="10%"> SOT-363 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 18.0 </td> <td width="10%"> XP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=MWE6IC9100NR1 data-key-5=%20% data-key-6=The%20%AMPXP-FRS-MWE6IC9100NR1-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%MWE6IC9100NR1%20%power%20%amplifier%20%from%20%Freescale.%20%%20%This%20%amplifier%20%operates%20%from%20%869-960%20%MHz,%20%with%20%typical%20%33.5dB%20%gain%20%and%20%100%20%Watt%20%output%20%power.%20%The%20%model%20%is%20%based%20%on%20%X-parameter%20%data%20%file%20%extracted%20%from%20%the%20%Freescale’s%20%compact%20%model%20%(available%20%from%20%www.freescale.com%20%for%20%free%20%download)%20%at%20%specified%20%condition%20%listed%20%%20%above.%20% data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Freescale </td> <td width="10%"> <a href=/models/Vendor/Freescale/MWE6IC9100NR1.pdf target="blank">MWE6IC9100NR1</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=26&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-FRS-MWE6IC9100NR1-001_datasheet.pdf" target="blank">AMPXP-FRS-MWE6IC9100NR1-001</a> </td> <td width="10%"> S01 </td> <td width="10%"> Amplifier </td> <td width="10%"> 1 </td> <td width="10%"> 50.0 </td> <td width="10%"> XP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=PGA-102plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-PGA102plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits%20%PGA-102+%20%wideband%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05%20%-%20%6GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/PGA-102plus.pdf target="blank">PGA-102plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=30&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-PGA102plus-001_datasheet.pdf" target="blank">AMPXP-MCL-PGA102plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 17.5 </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=PGA-103plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-PGA103plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits%20%PGA-103+%20%wideband%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05%20%-%20%4GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/PGA-103plus.pdf target="blank">PGA-103plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=31&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-PGA103plus-001_datasheet.pdf" target="blank">AMPXP-MCL-PGA103plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 22.5 </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=PHA-1plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-PHA1plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits&#174;%20%PHA-1+%20%low%20%noise,%20%high%20%linearity%20%amplifier%20%in%20%a%20%SOT-89%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05-6%20%GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/Xparameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/PHA-1plus.pdf target="blank">PHA-1plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=33&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-PHA1plus-001_datasheet.pdf" target="blank">AMPXP-MCL-PHA1plus-001</a> </td> <td width="10%"> SOT-89 </td> <td width="10%"> Amplifier </td> <td width="10%"> 18 </td> <td width="10%"> 22.0 </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=PHA-22plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-PHA22plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits%20%PHA-22+%20%dual%20%matched%20%wideband%20%amplifier%20%in%20%a%20%6.0%20%x%20%4.9mm%20%MCLP%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05-1.5GHz%20%applications%20%and%20%offers%20%a%20%gain%20%match%20%of%20%0.2dB,%20%phase%20%match%20%of%20%1.6%20%degrees%20%and%20%low%20%noise.%20%A%20%combination%20%of%20%S-Parameter%20%with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/PHA-22plus.pdf target="blank">PHA-22plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=34&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-PHA22plus-001_datasheet.pdf" target="blank">AMPXP-MCL-PHA22plus-001</a> </td> <td width="10%"> DL1020 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 22.0 </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=PSA4-5043plus data-key-5=%20% data-key-6=The%20%AMPXP-MCL-PSA4-5043plus-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Mini-Circuits%20%PSA4- 5043+%20%ultra%20%low%20%noise,%20%MMIC%20%amplifier%20%in%20%a%20%SOT-343%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%0.05-4 GHz%20%applications%20%and%20%supports%20%high%20%linear%20%dynamic%20%range%20%requirements.%20%A%20%combination%20%of%20%SParameter with%20%noise/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small -signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/PSA4-5043plus.pdf target="blank">PSA4-5043plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=35&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-MCL-PSA4-5043plus-001_datasheet.pdf" target="blank">AMPXP-MCL-PSA4-5043plus-001</a> </td> <td width="10%"> SOT-343 </td> <td width="10%"> Amplifier </td> <td width="10%"> 12 </td> <td width="10%"> 21.0 </td> <td width="10%"> NL, XP, SP, NP </td> </tr> <tr data-key-1=SLC - Components data-key-2=ADS-MWO-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=RF5110G data-key-5=Available%20%Request%20%Quote data-key-6=The%20%AMPXP-QOR-RF5110G-001is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%Qorvo%20%RF5110G%20%high%20%gain%20%power%20%amplifier%20%in%20%a%20%QFN%20%3mm%20%by%20%3mm%20%package.%20%This%20%amplifier%20%is%20%designed%20%for%20%DC-1GHz%20%applications%20%and%20%offers%20%an%20%excellent%20%dynamic%20%range.%20%A%20%combination%20%of%20%S-Parameter/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%broadband%20%small-signal%20%S-parameter%20%as%20%well%20%as%20%large-signal%20%results%20%at%20%25C. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote" data-key-11="%20%" data-key-12="%20%"> <td class="details-control"></td> <td width="10%"> Qorvo </td> <td width="10%"> <a href=/models/Vendor/Qorvo/RF5110G.pdf target="blank">RF5110G</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=1098&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMXP-QOR-RF5110G-001_datasheet.pdf" target="blank">AMXP-QOR-RF5110G-001</a> </td> <td width="10%"> QFN </td> <td width="10%"> Amplifier </td> <td width="10%"> .9 </td> <td width="10%"> 34.0 </td> <td width="10%"> IM, NL, SP, XP </td> </tr> </tbody> </table> </div> </div> <div class="row"> <div class="col-md-9"> <h4 class="HeaderTitle">Legend</h4> </div> <div class="col-md-3"> &nbsp; </div> </div> <div class="row"> <div class="col-md-5"> <dl class="dl-horizontal"> <dt class="text-danger">3D</dt> <dd class="text-danger">3D Model</dd> <dt class="text-success">BB</dt> <dd class="text-success"> Broadband Component</dd> <dt class="text-primary">BRK</dt> <dd class="text-primary">3D Brick EM Models™</dd> <dt class="text-info">BW</dt> <dd class="text-info"> Bondwire de-embedding</dd> <dt class="text-success">DRS</dt> <dd class="text-success"> Dynamic Range Selection</dd> <dt class="text-muted">EB</dt> <dd class="text-muted"> Embedded Model</dd> <dt class="text-muted">FL</dt> <dd class="text-muted"> Flicker Noise (1/F)</dd> <dt class="text-warning">IM</dt> <dd class="text-warning"> 3rd order IMD validated</dd> <dt class="text-danger">LP</dt> <dd class="text-danger"> Load Pull</dd> <dt class="text-primary">NL</dt> <dd class="text-primary"> Non-Linear</dd> <dt class="redletters"><img src="/Images/Misc/RedAsterisks8.png" /></dt> <dd> Discontinued or not recommended <br /> for new designs</dd> </dl> </div> <div class="col-md-5 pull-left"> <dl class="dl-horizontal"> <dt class="text-success">NP</dt> <dd class="text-success"> Noise Parameter</dd> <dt class="text-info">OS</dt> <dd class="text-info"> Orientation Selectable</dd> <dt class="text-muted">PD</dt> <dd class="text-muted"> Pad De-embedding</dd> <dt class="text-warning">PS</dt> <dd class="text-warning"> Pad Scaling</dd> <dt class="text-danger">SP</dt> <dd class="text-danger"> S-Parameter Data Model</dd> <dt class="text-primary">SS</dt> <dd class="text-primary"> Substrate Scalable</dd> <dt class="text-primary">SM</dt> <dd class="text-primary"> Super Model</dd> <dt class="text-success">TS</dt> <dd class="text-success"> Temperature Scalable</dd> <dt class="text-info">VS</dt> <dd class="text-info"> Part Value Scalable/Selectable</dd> <dt class="text-primary">XP</dt> <dd class="text-primary"> X-Parameter Data Model</dd> </dl> </div> <div class="col-md-3 pull-left"> <dl class="dl-horizontal"></dl> </div> </div> </div> </div> </div> </div> <div id="freemodels" class="tab-pane "> <div class="container"> <div class="row"> <div class="col-md-4 "> <h4 class="HeaderListGroup">Modelithics SELECT+</h4> <p> Free Sample of Modelithics COMPLETE Library, containing a selection of Global CLR™ models (capacitors, inductors and resistors) as well as *X-parameters, non-linear diode and transistor models. </p> <ul class="list-group"> <li class="HeaderListGroup list-group-item active">Free ADS Model Downloads</li> <a href="/Downloads/Installers/SELECT/ADS/v19.5/Setup_SELECTv19.5_ADS.exe" target="_blank"><li class="list-group-item">Modelithics SELECT+ for ADS - Windows</li></a> <a href="/Downloads/Installers/SELECT/ADS/v19.5/Setup_SELECTv19.5_ADS.run" target="_blank"><li class="list-group-item">Modelithics SELECT+ for ADS - Linux</li></a> </ul> </div> <div class="col-md-8"> <h4 class="HeaderListGroup">SELECT+ Library Components</h4> <div class="container"> <div class="row"> <div class="col-md-7 "> <!-- Products Table --> <table class="table table-striped table-hover display compact table-responsive"> <thead> <tr class="text-products"> <th>More Info</th> <th width="10%"> Vendor </th> <th width="10%"> <img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /> &nbsp; Part Number </th> <th width="10%"> <img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" />&nbsp; Model </th> <th width="10%"> Body Style </th> <th width="10%"> Component </th> <th width="10%"> Max Freq (GHz) </th> <th width="10%"> Power Out (dBm) </th> <th width="10%"> Part Values </th> <th width="10%"> Features </th> </tr> </thead> <tbody> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=0603CS data-key-5=Available%20%Request%20%Quote data-key-6=The%20%IND-CLC-0603-101-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0603CS%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length%20%pad%20%width,%20%pad%20%gap%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20%%20% data-key-8=Inductor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> Coilcraft </td> <td width="10%"> <a href=/models/Vendor/Coilcraft/0603CS.pdf target="blank">0603CS</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=707&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0603-101-S_datasheet.pdf" target="blank">IND-CLC-0603-101-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.6 - 390 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=0603HP data-key-5=%20% data-key-6=The%20%IND-CLC-0603-102-S%20%%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Coilcraft%20%P/N%20%0603HP%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.coilcraft.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="%20%"> <td class="details-control"></td> <td width="10%"> Coilcraft </td> <td width="10%"> <a href=/models/Vendor/Coilcraft/0603HP.pdf target="blank">0603HP</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=2&amp;mdl=1069&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-CLC-0603-102-S_datasheet.pdf" target="blank">IND-CLC-0603-102-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 1.8-390 nH </td> <td width="10%"> VV, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=600S data-key-5=Available%20%Request%20%Quote data-key-6=The%20%CAP-AVX-600S-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%600S%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX </td> <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/600S.pdf target="blank">600S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1492&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-600S-001-S_datasheet.pdf" target="blank">CAP-AVX-600S-001-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 100 pF </td> <td width="10%"> BB, OS, PS, SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=800B data-key-5=Available%20%Request%20%Quote data-key-6=The%20%CAP-AVX-800B-001%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%800B%20%(0.11”%20%x%20%0.11”)%20%NP0%20%ceramic%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%https://www.kyocera-avx.com/).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%The%20%model%20%is%20%validated%20%with%20%measured%20%equivalent%20%series%20%resistance%20%(ESR).%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%An%20%orientation%20%switch%20%is%20%used%20%in%20%the%20%model%20%to%20%select%20%between%20%the%20%horizontal%20%and%20%vertical%20%mount%20%configurations.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX </td> <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/800B.pdf target="blank">800B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1493&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-800B-001-S_datasheet.pdf" target="blank">CAP-AVX-800B-001-S</a> </td> <td width="10%"> Case B </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 – 1000 pF </td> <td width="10%"> BB, OS, PS, SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=Accu-P_ data-key-5=Available%20%Request%20%Quote data-key-6=The%20%CAP-AVX-0201-004-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%AVX%20%P/N%20%0201%20%Accu-P%20%surface%20%mountchip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.avx.com).%20%The%20%models%20%are%20%for%20%use%20%withmicrostrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrateheight,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%padlength%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequencypairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeledover%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%thataccurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%padstack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> KYOCERA-AVX </td> <td width="10%"> <a href=/models/Vendor/KYOCERA-AVX/Accu-P_.pdf target="blank">Accu-P_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=6&amp;mdl=1015&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-AVX-0201-004-S_datasheet.pdf" target="blank">CAP-AVX-0201-004-S</a> </td> <td width="10%"> 0201 </td> <td width="10%"> Capacitor </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0.05 pF - 22 pF </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=BAS40 data-key-5=Available%20%Request%20%Quote data-key-6=The%20%SKD-INF-ST23-001%20%is%20%a%20%substrate%20%and%20%temperature%20%scalable,%20%bias%20%dependent%20%non-linear%20%model%20%for%20%the%20%Infineon%20%BAS40%20%Schottky%20%diode%20%in%20%a%20%SOT-23%20%package.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%microstrip%20%applications%20%operating%20%from%20%DC%20%to%20%7%20%GHz.%20%Users%20%specify%20%substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%temperature.%20%The%20%part%20%is%20%designed%20%for%20%use%20%in%20%switching%20%applications. data-key-8=Schottky data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> Infineon </td> <td width="10%"> <a href=/models/Vendor/Infineon/BAS40.pdf target="blank">BAS40</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=540&amp;returnUrl=%2Fmodels%2Fdatasheet%2FSchottky%2FSKD-INF-ST23-001-S_datasheet.pdf" target="blank">SKD-INF-ST23-001-S</a> </td> <td width="10%"> SOT-23 </td> <td width="10%"> Schottky </td> <td width="10%"> 7 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> NL, SS, TS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=BB0502X7R104M data-key-5=Available%20%Request%20%Quote data-key-6=CAP-PRS-0502-001-S%20%is%20%a%20%model%20%for%20%the%20%BB0502%20%surface%20%mount%20%chip%20%capacitor%20%(Presidio%20%P/N%20%BB0502X7R104M).%20%The%20%model%20%is%20%for%20%use%20%with%20%10%20%mil%20%quartz%20%microstrip%20%applications%20%and%20%accounts%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%This%20%is%20%the%20%Select%20%version%20%of%20%the%20%CAP-PRS-0502-001%20%model%20%and%20%does%20%not%20%have%20%substrate%20%scalability. data-key-8=Capacitor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> Presidio </td> <td width="10%"> <a href=http://presidiocomponents.com/products/Microwave-FO-RF-Capacitor-Links.html target="blank">BB0502X7R104M</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=4&amp;mdl=203&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-PRS-0502-001-S_datasheet.pdf" target="blank">CAP-PRS-0502-001-S</a> </td> <td width="10%"> 0502 </td> <td width="10%"> Capacitor </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> DC Block </td> <td width="10%"> BB, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BF1211 data-key-5=%20% data-key-6=The%20%DGMOS-PHL-BF1211-S%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%NXP%20%(formerly%20%Philips)%20%n-channel%20%dual-gate packaged%20%MOSFET.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%gain%20%controlled%20%low%20%noise%20%VHF%20%and%20%UHF%20%amplifiers for%20%5V%20%digital%20%and%20%analog%20%television%20%tuner%20%applications.%20%The%20%model%20%is%20%temperature%20%dependent%20%and%20%is validated%20%from%20%250C%20%to%20%850C. data-key-8=MOSFET data-key-10="%20%"> <td class="details-control"></td> <td width="10%"> NXP </td> <td width="10%"> <a href=/models/Vendor/NXP/BF1211.pdf target="blank">BF1211</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=235&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FDGMOS-NXP-BF1211-S_datasheet.pdf" target="blank">DGMOS-NXP-BF1211-S</a> </td> <td width="10%"> SOT-143B </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> &lt;10 dBm </td> <td width="10%"> </td> <td width="10%"> NL, TS, NP </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=BF1212 data-key-5=%20% data-key-6=The%20%DGMOS-PHL-BF1212-S%20%is%20%a%20%non-linear%20%model%20%for%20%the%20%NXP%20%(formerly%20%Philips)%20%n-channel%20%dual-gate packaged%20%MOSFET.%20%The%20%model%20%is%20%intended%20%for%20%use%20%with%20%gain%20%controlled%20%low%20%noise%20%VHF%20%and%20%UHF%20%amplifiers for%20%5V%20%digital%20%and%20%analog%20%television%20%tuner%20%applications.%20%The%20%model%20%is%20%temperature%20%dependent%20%and is%20%validated%20%from%20%250C%20%to%20%850C. data-key-8=MOSFET data-key-10="%20%"> <td class="details-control"></td> <td width="10%"> NXP </td> <td width="10%"> <a href=/models/Vendor/NXP/BF1212.pdf target="blank">BF1212</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=237&amp;returnUrl=%2Fmodels%2Fdatasheet%2FMOSFET%2FDGMOS-NXP-BF1212-S_datasheet.pdf" target="blank">DGMOS-NXP-BF1212-S</a> </td> <td width="10%"> SOT-143B </td> <td width="10%"> MOSFET </td> <td width="10%"> 2 </td> <td width="10%"> &lt;10 dBm </td> <td width="10%"> </td> <td width="10%"> NL, TS, NP </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=C0805(NP0) data-key-5=Available%20%Request%20%Quote data-key-6=The%20%CAP-KMT-0805-001-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Kemet%20%P/N%20%C0805%20%NPO%20%type%20%dielectric%20%surface%20%mount%20%chip%20%capacitor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.kemet.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%temperature%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%prediction%20%is%20%enabled%20%in%20%this%20%equivalent%20%circuit%20%model.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> KEMET </td> <td width="10%"> <a href=/models/Vendor/KEMET/C0805(NP0).pdf target="blank">C0805(NP0)</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=28&amp;mdl=1441&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-KMT-0805-001-S_datasheet.pdf" target="blank">CAP-KMT-0805-001-S</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1-680 pF </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=GRM2165C2A data-key-5=Available%20%Request%20%Quote data-key-6=The%20%CAP-MUR-0805-001-S%20%family%20%are%20%substrate%20%scalable%20%models%20%for%20%0805%20%surface%20%mount%20%chip%20%capacitors%20%from%20%Murata%20%P/N%20%GRM2165C2A%20%(1-470pF),%20%GRM21BR72A%20%(560-1800pF).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model?%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%This%20%is%20%the%20%Select%20%version%20%of%20%the%20%CAP-MUR-0805-001%20%model%20%with%20%a%20%limited%20%part%20%value%20%range. data-key-8=Capacitor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> Murata </td> <td width="10%"> <a href=/models/Vendor/Murata/GRM2165C2A.pdf target="blank">GRM2165C2A</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=8&amp;mdl=190&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-MUR-0805-001-S_datasheet.pdf" target="blank">CAP-MUR-0805-001-S</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Capacitor </td> <td width="10%"> 9 </td> <td width="10%"> </td> <td width="10%"> 10-470 pF </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=HFCN-2700plus data-key-5=Available%20%Request%20%Quote data-key-6=The%20%HPF-MCL-HFCN2700-001%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Mini-Circuits&#174;%20%P/N%20%HFCN-2700+%20%ceramic%20%high-pass%20%surface%20%mount%20%filter;%20%additional%20%information%20%is%20%available%20%at%20%&lt;a%20%href=&quot;http://www.minicircuits.com&quot;&gt;www.minicircuits.com&lt;/a&gt;.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters. data-key-8=HighPassFilter data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/HFCN-2700plus.pdf target="blank">HFCN-2700plus</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=307&amp;returnUrl=%2Fmodels%2Fdatasheet%2FHighPassFilter%2FHPF-MCL-HFCN2700-001-S_datasheet.pdf" target="blank">HPF-MCL-HFCN2700-001-S</a> </td> <td width="10%"> FV1206 </td> <td width="10%"> HighPassFilter </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=IMS2533 data-key-5=Available%20%Request%20%Quote data-key-6=The%20%ATT-IMS-0603-002-S%20%is%20%a%20%part%20%value%20%scalable%20%equivalent%20%circuit%20%model%20%for%20%the%20%IMS%20%P/N%20%IMS2533%20%thin-film%20%surface%20%mount%20%attenuator%20%family%20%in%20%face%20%down%20%orientation%20%(additional%20%information%20%is%20%available%20%at%20%ims-resistors.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Attenuator data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> IMS </td> <td width="10%"> <a href=/models/Vendor/IMS/IMS2533.pdf target="blank">IMS2533</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=85&amp;mdl=1108&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-IMS-0603-002-S_datasheet.pdf" target="blank">ATT-IMS-0603-002-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Attenuator </td> <td width="10%"> 40 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> BB, PS, SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=LL2012-FHL data-key-5=Available%20%Request%20%Quote data-key-6=The%20%IND-TKO-0805-002-S%20%family%20%are%20%substrate%20%scalable%20%models%20%for%20%0805%20%surface%20%mount%20%chip%20%inductors%20%from%20%Toko%20%P/N%20%LL2012-FHL.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%and%20%interconnect%20%metal%20%thickness%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model?%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%This%20%is%20%the%20%Select%20%version%20%of%20%the%20%IND-TKO-0805%20%-002%20%model%20%with%20%a%20%limited%20%part%20%value%20%range. data-key-8=Inductor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> Toko </td> <td width="10%"> <a href=/models/Vendor/Toko/LL2012-FHL.pdf target="blank">LL2012-FHL</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=414&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TKO-0805-002-S_datasheet.pdf" target="blank">IND-TKO-0805-002-S</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Inductor </td> <td width="10%"> 9 </td> <td width="10%"> </td> <td width="10%"> 33-680 nH </td> <td width="10%"> SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=MLG1608B data-key-5=Available%20%Request%20%Quote data-key-6=The%20%IND-TDK-0603-002-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%TDK%20%P/N%20%MLG1608B%20%series%20%surface%20%mount%20%chip%20%inductor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.component.tdk.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%within%20%the%20%valid%20%inductance%20%range.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> TDK </td> <td width="10%"> <a href=/models/Vendor/TDK/MLG1608B.pdf target="blank">MLG1608B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=16&amp;mdl=1107&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-TDK-0603-002-S_datasheet.pdf" target="blank">IND-TDK-0603-002-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Inductor </td> <td width="10%"> 26 </td> <td width="10%"> </td> <td width="10%"> 1 - 100 nH </td> <td width="10%"> BB, SS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=NPT1012B data-key-5=%20% data-key-6=HMTXP-MAC-NPT1012-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%MACOM%20%NPT1012B%20%high%20%power%20%GaN%20%HEMT%20%device.%20%The%20%model%20%is%20%based%20%on%20%X-parameter%20%modeling%20%technology%20%and%20%extracted%20%from%20%its%20%compact%20%version%20%available%20%from%20%Modleithics%20%NLT%20%library.%20%%20%%20%The%20%extraction%20%condition%20%is%20%given%20%above.%20%cations. data-key-8=GaN HEMT data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> MACOM </td> <td width="10%"> <a href=/models/Vendor/MACOM/NPT1012B.pdf target="blank">NPT1012B</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=9&amp;mdl=1168&amp;returnUrl=%2Fmodels%2Fdatasheet%2FGaN_HEMT%2FHMTXP-MAC-NPT1012B_datasheet.pdf" target="blank">HMTXP-MAC-NPT1012B</a> </td> <td width="10%"> Package </td> <td width="10%"> GaN HEMT </td> <td width="10%"> 8 </td> <td width="10%"> 43 dBm </td> <td width="10%"> </td> <td width="10%"> NL, LP </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=QFN01 data-key-5=Available%20%Request%20%Quote data-key-6=The%20%PKG-RJR-QFN01-101%20%is%20%a%20%simulation%20%based%20%model%20%of%20%RJR%20%Polymers%20%RQFN44-12A%20%QFN%20%package. data-key-8=Package data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> RJR </td> <td width="10%"> <a href=/models/Vendor/RJR/QFN01.pdf target="blank">QFN01</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=34&amp;mdl=758&amp;returnUrl=%2Fmodels%2Fdatasheet%2FPackage%2FPKG-RJR-QFN01-101-S_datasheet.pdf" target="blank">PKG-RJR-QFN01-101-S</a> </td> <td width="10%"> LCP </td> <td width="10%"> Package </td> <td width="10%"> 50 </td> <td width="10%"> </td> <td width="10%"> </td> <td width="10%"> </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=R07S data-key-5=%20% data-key-6=The%20%CAP-JOH-0402-001-S%20%is%20%a%20%substrate-scalable%20%Global%20%Model™%20%for%20%the%20%Johanson%20%P/N%20%R07S%20%surface%20%mountchip%20%capacitor%20%family.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printedcircuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metalthickness,%20%component%20%tolerance,%20%pad%20%width,%20%pad%20%length,%20%and%20%pad%20%gap%20%are%20%model%20%input%20%parameters.%20%Modelsaccount%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%single,%20%substrate%20%scalableGlobal%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%capacitor%20%values%20%within%20%the%20%valid%20%capacitance%20%range.%20%.A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Capacitor data-key-10="%20%"> <td class="details-control"></td> <td width="10%"> Johanson </td> <td width="10%"> <a href=/models/Vendor/Johanson/R07S.pdf target="blank">R07S</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=3&amp;mdl=1017&amp;returnUrl=%2Fmodels%2Fdatasheet%2FCapacitor%2FCAP-JOH-0402-001-S_datasheet.pdf" target="blank">CAP-JOH-0402-001-S</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Capacitor </td> <td width="10%"> 20 </td> <td width="10%"> </td> <td width="10%"> 0.1 - 33 pF </td> <td width="10%"> BB, PS, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO data-key-3=Available%20%Request%20%Quote data-key-4=RCAT data-key-5=Available%20%Request%20%Quote data-key-6=The%20%ATT-MCL-RCAT-001-S%20%model%20%for%20%the%20%Mini-Circuits%20%RCAT%20%attenuators%20%is%20%developed%20%for%20%use%20%in%20%broadband%20%applications using%20%a%20%multi-via%20%ground%20%plane%20%configuration%20%land%20%pattern.%20%An%20%alternate%20%model,%20%ATT-MCL-RCAT-002- S,%20%for%20%the%20%same%20%family%20%of%20%fixed-value%20%attenuators%20%is%20%better%20%suited%20%for%20%use%20%in%20%space-conservative%20%microstrip%20%footprints with%20%a%20%simple%20%grounding%20%approach%20%and%20%recommended%20%for%20%lower%20%frequency%20%applications. data-key-8=Attenuator data-key-10="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/RCAT.pdf target="blank">RCAT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=44&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-MCL-RCAT-001-S_datasheet.pdf" target="blank">ATT-MCL-RCAT-001-S</a> </td> <td width="10%"> LZ1737 </td> <td width="10%"> Attenuator </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0-30 dB </td> <td width="10%"> VS, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO data-key-3=Available%20%Request%20%Quote data-key-4=RCAT_ data-key-5=Available%20%Request%20%Quote data-key-6=The%20%ATT-MCL-RCAT-002-S%20%model%20%for%20%the%20%Mini-Circuits%20%RCAT%20%attenuators%20%is%20%developed%20%for%20%use%20%with%20%spaceconservative microstrip%20%footprints%20%using%20%a%20%simple%20%grounding%20%approach%20%and%20%recommended%20%for%20%lower%20%frequency applications.%20%An%20%alternate%20%model,%20%ATT-MCL-RCAT-001-S,%20%for%20%the%20%same%20%family%20%of%20%fixed-value%20%attenuators%20%is%20%available for%20%higher%20%frequency%20%applications%20%using%20%a%20%larger%20%multi-via%20%ground%20%plane%20%configuration. data-key-8=Attenuator data-key-10="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/RCAT_.pdf target="blank">RCAT_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=45&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-MCL-RCAT-002-S_datasheet.pdf" target="blank">ATT-MCL-RCAT-002-S</a> </td> <td width="10%"> LZ1737 </td> <td width="10%"> Attenuator </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 0-30 dB </td> <td width="10%"> VS, SS, PS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=RE0805CT data-key-5=Available%20%Request%20%Quote data-key-6=The%20%RES-BAI-0805-001-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%Barry%20%Industries%20%P/N%20%RE0805CTsurface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.barryind.com).%20%The%20%model%20%isintended%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasiticeffects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%mounting%20%pad%20%metal%20%thickness,%20%and%20%componenttolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairsbeyond%20%the%20%fundamental%20%series%20%resonant%20%frequency.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%GlobalModel™%20%is%20%available%20%that%20%accurately%20%emulate%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistor%20%range.%20%A%20%Sim_modeswitch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Resistor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> BARRY </td> <td width="10%"> <a href=/models/Vendor/BARRY/RE0805CT.pdf target="blank">RE0805CT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=18&amp;mdl=1016&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-BAI-0805-001-S_datasheet.pdf" target="blank">RES-BAI-0805-001-S</a> </td> <td width="10%"> 0805 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 50 - 100 Ohm </td> <td width="10%"> BB, PS, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-Genesys data-key-3=Available%20%Request%20%Quote data-key-4=RF2878 data-key-5=%20% data-key-6=The%20%AMPXP-RFMD-RF2878-001%20%is%20%a%20%non-linear%20%behavioral%20%model%20%for%20%the%20%RF2878%20%low%20%noise%20%amplifier%20%/%20%PA%20%driver%20%amplifier%20%from%20%RFMD.%20%This%20%amplifier%20%operates%20%from%20%0.15-2.5%20%GHz%20%with%20%a%20%very%20%high%20%dynamic%20%range%20%designed%20%for%20%digital%20%cellular%20%applications.%20%The%20%model%20%is%20%designed%20%to%20%predict%20%the%20%device%20%performance%20%as%20%a%20%function%20%of%20%frequencies,%20%bias%20%conditions%20%and%20%substrates.%20%%20%A%20%combination%20%of%20%P2D/X-parameter%20%model%20%structure%20%enables%20%the%20%model%20%to%20%predict%20%the%20%small%20%signal%20%S-parameter%20%as%20%well%20%as%20%large%20%signal%20%loadpull%20%results. data-key-8=Amplifier data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> Qorvo </td> <td width="10%"> <a href=/models/Vendor/Qorvo/RF2878.pdf target="blank">RF2878</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=27&amp;mdl=37&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAmplifier%2FAMPXP-RFMD-RF2878-001-S_datasheet.pdf" target="blank">AMPXP-RFMD-RF2878-001-S</a> </td> <td width="10%"> IC </td> <td width="10%"> Amplifier </td> <td width="10%"> 2.5 </td> <td width="10%"> 32.0 </td> <td width="10%"> </td> <td width="10%"> NL, SS, LP, IM, XP </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=RK73x1J data-key-5=Available%20%Request%20%Quote data-key-6=The%20%RES-KOA-0603-101-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%ModelTM%20%for%20%the%20%KOA%20%Speer%20%Electronics%20%P/N%20%RK73x1J%20%surface%20%mount%20%chip%20%resistor%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.koaspeer.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%component%20%tolerance,%20%pad%20%width%20%and%20%pad%20%length%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%and%20%pad%20%scalable%20%Global%20%ModelTM%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%resistor%20%values%20%within%20%the%20%valid%20%resistance%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Resistor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> KOA </td> <td width="10%"> <a href=/models/Vendor/KOA/RK73x1J.pdf target="blank">RK73x1J</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mdl=708&amp;returnUrl=%2Fmodels%2Fdatasheet%2FResistor%2FRES-KOA-0603-101-S_datasheet.pdf" target="blank">RES-KOA-0603-101-S</a> </td> <td width="10%"> 0603 </td> <td width="10%"> Resistor </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 1 – 1M Ohms </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=TT9 data-key-5=Available%20%Request%20%Quote data-key-6=The%20%ATT-SINT-TT9-001-S%20%is%20%a%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%for%20%the%20%Smiths%20%Interconnects%20%P/N%20%TT9%20%SMT%20%series%20%surface%20%mount%20%attenuator%20%family%20%(additional%20%information%20%is%20%available%20%at%20%www.smithsinterconnect.com).%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%A%20%single,%20%substrate%20%scalable%20%Microwave%20%Global%20%Model™%20%is%20%available%20%that%20%accurately%20%emulates%20%all%20%attenuator%20%values%20%within%20%the%20%valid%20%attenuation%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Attenuator data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> SmithsInterconnect </td> <td width="10%"> <a href=/models/Vendor/SmithsInterconnect/TT9.pdf target="blank">TT9</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=91&amp;mdl=1440&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-SINT-TT9-001-S_datasheet.pdf" target="blank">ATT-SINT-TT9-001-S</a> </td> <td width="10%"> SMT </td> <td width="10%"> Attenuator </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0 - 10 dB </td> <td width="10%"> VS, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO-Genesys-HFSS-Sonnet data-key-3=Available%20%Request%20%Quote data-key-4=WE-MK data-key-5=Available%20%Request%20%Quote data-key-6=The%20%IND-WTH-0402-001-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%WE-MK%20%0402%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%http://www.we-online.com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higherorder%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled. data-key-8=Inductor data-key-10="Available%20%Request%20%Quote"> <td class="details-control"></td> <td width="10%"> Wurth </td> <td width="10%"> <a href=http://katalog.we-online.de/en/pbs/WE-MK target="blank">WE-MK</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1018&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0402-001-S_datasheet.pdf" target="blank">IND-WTH-0402-001-S</a> </td> <td width="10%"> 0402 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1 - 270 nH </td> <td width="10%"> SS, PS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS data-key-3=Available%20%Request%20%Quote data-key-4=WE-MK data-key-5=%20% data-key-6=The%20%IND-WTH-0402-005-S%20%is%20%a%20%substrate%20%scalable%20%Global%20%Model™%20%for%20%the%20%W&#252;rth%20%Elektronik%20%P/N%20%7447840xxx%20%WE-MK%20%0402%20%series%20%surface%20%mount%20%chip%20%inductors%20%(additional%20%information%20%is%20%available%20%at%20%http://www.weonline.%20%com).%20%A%20%single,%20%substrate%20%scalable%20%Global%20%Model™%20%is%20%available%20%which%20%accurately%20%emulates%20%all%20%inductor%20%values%20%defined%20%by%20%the%20%model.%20%The%20%models%20%are%20%for%20%use%20%with%20%microstrip%20%applications%20%and%20%account%20%for%20%substrate%20%(or%20%printed%20%circuit%20%board)%20%related%20%parasitic%20%effects.%20%Substrate%20%height,%20%dielectric%20%constant,%20%loss%20%tangent,%20%interconnect%20%metal%20%thickness,%20%pad%20%length,%20%pad%20%width%20%and%20%component%20%tolerance%20%are%20%model%20%input%20%parameters.%20%Models%20%account%20%for%20%up%20%to%20%two%20%higher-order%20%resonant%20%frequency%20%pairs%20%beyond%20%the%20%fundamental%20%parallel%20%resonant%20%frequency.%20%Accurate%20%effective%20%series%20%resistance%20%(ESR)%20%is%20%modeled%20%over%20%the%20%frequency%20%range.%20%A%20%Sim_mode%20%switch%20%allows%20%pad%20%stack%20%effects%20%to%20%be%20%disabled.%20% data-key-8=Inductor data-key-10="%20%"> <td class="details-control"></td> <td width="10%"> Wurth </td> <td width="10%"> <a href=/models/Vendor/Wurth/WE-MK.pdf target="blank">WE-MK</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=41&amp;mdl=1494&amp;returnUrl=%2Fmodels%2Fdatasheet%2FInductor%2FIND-WTH-0402-005-S_datasheet.pdf" target="blank">IND-WTH-0402-005-S</a> </td> <td width="10%"> 0301 </td> <td width="10%"> Inductor </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 1 – 51 nH </td> <td width="10%"> BB, SS, PS, VS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO data-key-3=Available%20%Request%20%Quote data-key-4=YAT data-key-5=Available%20%Request%20%Quote data-key-6=The%20%ATT-MCL-YAT-001-S%20%model%20%for%20%the%20%Mini-Circuits%20%YAT%20%attenuators%20%is%20%developed%20%for%20%use%20%in%20%broadband%20%applications using%20%a%20%multi-via%20%ground%20%plane%20%configuration%20%land%20%pattern.%20%An%20%alternate%20%model,%20%ATT-MCL-YAT-002-S,%20%for the%20%same%20%family%20%of%20%fixed-value%20%attenuators%20%is%20%better%20%suited%20%for%20%use%20%in%20%space-conservative%20%microstrip%20%footprints with%20%a%20%simple%20%grounding%20%approach%20%and%20%recommended%20%for%20%lower%20%frequency%20%applications. data-key-8=Attenuator data-key-10="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/YAT.pdf target="blank">YAT</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=46&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-MCL-YAT-001-S_datasheet.pdf" target="blank">ATT-MCL-YAT-001-S</a> </td> <td width="10%"> MC1630 </td> <td width="10%"> Attenuator </td> <td width="10%"> 30 </td> <td width="10%"> </td> <td width="10%"> 0-30 dB </td> <td width="10%"> VS, SS </td> </tr> <tr data-key-1=SELECT - Free data-key-2=ADS-MWO data-key-3=Available%20%Request%20%Quote data-key-4=YAT_ data-key-5=Available%20%Request%20%Quote data-key-6=The%20%ATT-MCL-YAT-002-S%20%model%20%for%20%the%20%Mini-Circuits%20%YAT%20%attenuators%20%is%20%developed%20%for%20%use%20%with%20%spaceconservative microstrip%20%footprints%20%using%20%a%20%simple%20%grounding%20%approach%20%and%20%recommended%20%for%20%lower%20%frequency applications.%20%An%20%alternate%20%model,%20%ATT-MCL-YAT-001-S,%20%for%20%the%20%same%20%family%20%of%20%fixed-value%20%attenuators%20%is%20%available for%20%higher%20%frequency%20%applications%20%using%20%a%20%larger%20%multi-via%20%ground%20%plane%20%configuration. data-key-8=Attenuator data-key-10="%20%"> <td class="details-control"></td> <td width="10%"> MiniCircuits </td> <td width="10%"> <a href=/models/Vendor/MiniCircuits/YAT_.pdf target="blank">YAT_</a> </td> <td width="10%"> <a href="/account/dloadtracker?dtype=25&amp;mvper=19&amp;mdl=47&amp;returnUrl=%2Fmodels%2Fdatasheet%2FAttenuator%2FATT-MCL-YAT-002-S_datasheet.pdf" target="blank">ATT-MCL-YAT-002-S</a> </td> <td width="10%"> MC1630 </td> <td width="10%"> Attenuator </td> <td width="10%"> 10 </td> <td width="10%"> </td> <td width="10%"> 0-30 dB </td> <td width="10%"> VS, SS, PS </td> </tr> </tbody> </table> </div> </div> <div class="row"> <div class="col-md-9"> <h4 class="HeaderTitle">Legend</h4> </div> <div class="col-md-3"> &nbsp; </div> </div> <div class="row"> <div class="col-md-5"> <dl class="dl-horizontal"> <dt class="text-danger">3D</dt> <dd class="text-danger">3D Model</dd> <dt class="text-success">BB</dt> <dd class="text-success"> Broadband Component</dd> <dt class="text-primary">BRK</dt> <dd class="text-primary">3D Brick EM Models™</dd> <dt class="text-info">BW</dt> <dd class="text-info"> Bondwire de-embedding</dd> <dt class="text-success">DRS</dt> <dd class="text-success"> Dynamic Range Selection</dd> <dt class="text-muted">EB</dt> <dd class="text-muted"> Embedded Model</dd> <dt class="text-muted">FL</dt> <dd class="text-muted"> Flicker Noise (1/F)</dd> <dt class="text-warning">IM</dt> <dd class="text-warning"> 3rd order IMD validated</dd> <dt class="text-danger">LP</dt> <dd class="text-danger"> Load Pull</dd> <dt class="text-primary">NL</dt> <dd class="text-primary"> Non-Linear</dd> <dt class="redletters"><img src="/Images/Misc/RedAsterisks8.png" /></dt> <dd> Discontinued or not recommended <br /> for new designs</dd> </dl> </div> <div class="col-md-5 pull-left"> <dl class="dl-horizontal"> <dt class="text-success">NP</dt> <dd class="text-success"> Noise Parameter</dd> <dt class="text-info">OS</dt> <dd class="text-info"> Orientation Selectable</dd> <dt class="text-muted">PD</dt> <dd class="text-muted"> Pad De-embedding</dd> <dt class="text-warning">PS</dt> <dd class="text-warning"> Pad Scaling</dd> <dt class="text-danger">SP</dt> <dd class="text-danger"> S-Parameter Data Model</dd> <dt class="text-primary">SS</dt> <dd class="text-primary"> Substrate Scalable</dd> <dt class="text-primary">SM</dt> <dd class="text-primary"> Super Model</dd> <dt class="text-success">TS</dt> <dd class="text-success"> Temperature Scalable</dd> <dt class="text-info">VS</dt> <dd class="text-info"> Part Value Scalable/Selectable</dd> <dt class="text-primary">XP</dt> <dd class="text-primary"> X-Parameter Data Model</dd> </dl> </div> <div class="col-md-3 pull-left"> <dl class="dl-horizontal"></dl> </div> </div> </div> </div> </div> </div> </div> <div id="literature" class="tab-pane"> <br /> <head> <title>Model Listing</title> <!-- CSS --> <link rel="stylesheet" type="text/css" href="/Content/jquery.dataTables.css"> <link rel="stylesheet" type="text/css" href="/Content/dataTables.fixedHeader.css"> <!-- Scripts --> <script type="text/javascript" charset="utf8" src="/Scripts/jquery.js"></script> <script type="text/javascript" charset="utf8" src="/Scripts/jquery.dataTables.js"></script> <script type="text/javascript" charset="utf8" src="/Scripts/dataTables.fixedHeader.js"></script> <script> $(document).ready(function () { $('[data-toggle=" tooltip"]').tooltip(); }); </script> </head> <!-- Get Tabs--> <h4> Application Note </h4> <table class="table table-striped table-hover display compact table-responsive"> <thead> <tr> <th width="3%"> &nbsp; </th> <th> Note # </th> <th width="52%"> Title </th> <th width="14%"> Date </th> <th width="30%"> Example Files </th> </tr> </thead> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote091_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 91 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=10056&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote091_Final.pdf&amp;littype=1" target="blank" title="">The Insertion-Loss Method of Filter Design Using Keysight PathWave Advanced Design System (ADS) and Modelithics Models</a> </td> <td width="14%"> 9/24/2024 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=10056&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN91.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote089_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 89 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=10031&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote089_Final.pdf&amp;littype=1" target="blank" title="">LNA Design Using Keysight PathWave Advanced Design System (ADS) and Modelithics Models</a> </td> <td width="14%"> 5/13/2024 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=10031&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN89.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote086.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 86 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1955&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote086.pdf&amp;littype=1" target="blank" title="">Varactor-Based Tunable Filter Design Using Keysight PathWave Advanced Design System (ADS) and Modelithics Models</a> </td> <td width="14%"> 8/24/2023 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1955&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN86.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/Modelithics_AppNote080_Performing_ESR_Simulations_of_Modelithics Models_in_ADS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 80 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1859&amp;returnUrl=%2FDownloads%2FAppNotes%2FModelithics_AppNote080_Performing_ESR_Simulations_of_Modelithics%20Models_in_ADS.pdf&amp;littype=1" target="blank" title="">Performing ESR Simulations of Modelithics Microwave Global Models in Keysight PathWave Advanced Design System (ADS) </a> </td> <td width="14%"> 3/18/2022 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1859&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN80.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote077_RFPro_with_Modelithics_Models.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 77 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1790&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote077_RFPro_with_Modelithics_Models.pdf&amp;littype=1" target="blank" title="">Using Modelithics Models with RFPro in Keysight PathWave ADS</a> </td> <td width="14%"> 7/27/2021 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1790&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN77.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote075_Tolerance Parameter_ADS_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 75 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1769&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote075_Tolerance%20Parameter_ADS_Final.pdf&amp;littype=1" target="blank" title="">Utilizing the Tolerance Parameter of Modelithics Models for Monte Carlo and Yield Simulations in Keysight ADS</a> </td> <td width="14%"> 4/5/2021 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1769&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN75.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote071_DesignwithSubstrateScalableModels_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 71 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1732&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote071_DesignwithSubstrateScalableModels_Final.pdf&amp;littype=1" target="blank" title="">Filter Design Flow in Keysight ADS with Substrate Scalable Models</a> </td> <td width="14%"> 11/4/2020 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1732&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN71.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote070__ADS_Piconics_Bias_Tee.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 70 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1725&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote070__ADS_Piconics_Bias_Tee.pdf&amp;littype=1" target="blank" title="">Designing Bias Tees with Broadband Conical Inductor Models</a> </td> <td width="14%"> 10/14/2020 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1725&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN70.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote067_Utilizing Substrate Scalability.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 67 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1710&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote067_Utilizing%20Substrate%20Scalability.pdf&amp;littype=1" target="blank" title="">Utilizing Substrate Scalability of Modelithics Models in Keysight ADS</a> </td> <td width="14%"> 8/18/2020 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1710&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN67.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN064_ADS_PartValueScalability_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 64 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1695&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN064_ADS_PartValueScalability_Final.pdf&amp;littype=1" target="blank" title="The Modelithics&amp;#174; CLR Library™ is a collection of measurement-based simulation models for capacitors, inductors, and resistors. This library contains Modelithics’ Microwave Global Models™, which offer features like part-value, substrate, and solder-pad scalability. In this application note, we will focus specifically on the part-value scalability feature of Modelithics passive-component models. Thanks to partvalue scalability, Modelithics passive-component models are well-suited for design scenarios that require tuning or optimization.">Using Continuous and Discrete Part-Value Scalability of Modelithics CLR Models for Tuning and Optimizations in Keysight ADS</a> </td> <td width="14%"> 6/29/2020 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1695&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN64.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN62_KeysightADSComponentLibrary.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 62 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1601&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN62_KeysightADSComponentLibrary.pdf&amp;littype=1" target="blank" title="">Accessing Modelithics Models from the Keysight ADS Component Library </a> </td> <td width="14%"> 6/28/2019 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN060_Procedure for ADS EM Co-Simulation_FINAL.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 60 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1579&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN060_Procedure%20for%20ADS%20EM%20Co-Simulation_FINAL.pdf&amp;littype=1" target="blank" title="">Keysight’s EM Cosimulation with Modelithics Models</a> </td> <td width="14%"> 2/11/2019 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN050_Fabrication_Impact_On_Lumped_Filter_Success_final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 50 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1326&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN050_Fabrication_Impact_On_Lumped_Filter_Success_final.pdf&amp;littype=1" target="blank" title="This document provides a comparison of three fabrication techniques used to generate a simple three element 250 MHz low pass filter (LPF) design. For each of the three scenarios, the filter will be fabricated using the values of the passive lumped elements obtained in the ideal LPF design process; it is expected that the measured data will differ from the ideal LPF design due to the parasitic effects present at high frequencies. Parasitic elements will be added incrementally to the design in order to illustrate the progression towards better measured to model agreement; the final full parasitic LPF model design will contain transmission line (TL) elements and Modelithics CLR models for the passive lumped elements. ">Good, Better And Best: Techniques For Achieving First Pass Success In Lumped Element Pcb -Based Filter Designs </a> </td> <td width="14%"> 3/18/2015 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1326&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN50.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN049_ADS_3028_PA_Measurements.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 49 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=39&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN049_ADS_3028_PA_Measurements.pdf&amp;littype=1" target="blank" title="This note provides insight into the performance predictability of a design simulation for a singlestage microwave power amplifier (PA) reference design, based on the use of a non-linear model for the TriQuint T2G6003028-FS packaged GaN HEMT device. The example studied in this application note is a 30 W device utilized in a reference amplifier board that uses distributed and surface mount components for matching and bias networks. The bias and operating information for the design is as follows: Vds = 28V, Ids = 200mA, design frequency = 5.9 GHz. For the simulations, a Modelithics developed nonlinear model for the T2G6003028-FS device is used along with Modelithics CLR models for the passive lumped surface mount components. The modeling and analysis tool used in this work includes Agilent Technologies’ Advanced Design System (ADS). The treatment within this note includes exploration of the measured to model agreement for small-signal as well as large signal analysis, including careful analysis of the passive matching network representations. The objectives of this work include the validation of the transistor model as well as an understanding of the impact of the matching and bias circuit modeling on the overall simulation to measured data agreement of the amplifier. ">Analysis Of A 30 W Power Amplifier Utilizing Modelithics’ Triquint T2G6003028-FS Model</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=39&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN49.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN048_Momentum_Ports_Final_Update_150707.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 48 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=38&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN048_Momentum_Ports_Final_Update_150707.pdf&amp;littype=1" target="blank" title="With the increased complexity of today’s circuits, designers are increasingly dependent on electromagnetic (EM) simulations during the design phase. With the trend towards smaller circuits and multi-layered boards, EM simulation is needed to accurately model internal circuit interactions. The use of discrete components helps to reduce a circuit’s overall footprint but introduces a level of complexity to the design process. A good understanding of the proper EM port configurations and calibration types is required to ensure accurate EM-Circuit co-simulation results. This application note is intended to help users of Agilent’s Advanced Design System (ADS) and Modelithics models accurately and efficiently simulate RF and microwave circuits. The focus is on finding the optimum port setup for EM simulation of circuit layouts that include surface mount devices. Several new features and improvements were introduced to Momentum, the 3D planar EM simulator in ADS, starting with the ADS 2011 release. Of particular interest are the new port calibration types and their impact on co-simulations when using Modelithics models. This application note explains the port nomenclature in ADS, presents multiple co-simulations between Momentum and Modelithics models, shows the impact of the various port shapes and calibration types, and provides recommendations based upon comparisons to measured data. The content is organized into three main areas. The first area provides detailed information concerning Momentum port types and calibration definitions. Following the calibration definitions is the results section, which includes examples that provide insight into port and calibration performance. The final section contains the recommended calibration type and the recommended port configurations. ">Recommendations For Port Setup When Using ADS Momentum And Modelithics Models</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=38&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN48.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN045_MDLX_LNA_Design_App_Note_140422.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 45 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=35&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN045_MDLX_LNA_Design_App_Note_140422.pdf&amp;littype=1" target="blank" title="This tutorial paper is intended to guide the user through the stages of a basic low noise amplifier design and optimization, with a goal of first-pass fabricated design success. This will be accomplished by providing the user with a project tutorial, starting with the design process and ending with a comparison between the software simulations and the model performances. This example used in this treatment is that of a low noise amplifier using a Modelithics-developed nonlinear model for an Avago ATF54143 PHEMT device along with Modelithics CLR models for all passive lumped components [1,2]. The simulations shown were developed within Agilent Technologies’ Advanced Design System (ADS) RF/Microwave circuit design simulation environment. ">Simulation Procedures For Successful Low Noise Amplifier Design</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=35&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN45.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN044_MDLX_ADS_Subst_Lib_App_Note_120921.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 44 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=34&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN044_MDLX_ADS_Subst_Lib_App_Note_120921.pdf&amp;littype=1" target="blank" title="In ADS, the substrate information is stored in the “Palette” tab located on the left side of the design environment; the proper palette is chosen by searching for MDLX_SUBv9.0_Substrates in the pull down menu located above the Palette tab. The chosen substrate is selected in this palette and placed in the schematic window. The substrate is assigned to the model by entering the substrate’s instance name into the model’s “Subst” parameter.">Modelithics Substrate Library For Agilent’S Advanced Design System (ADS) Adds Accuracy And Convenience To Board-Based Designs </a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=34&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN44.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN044_MDLX_ADS_Subst_Lib_App_Note_120921.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 44 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=34&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN044_MDLX_ADS_Subst_Lib_App_Note_120921.pdf&amp;littype=1" target="blank" title="In ADS, the substrate information is stored in the “Palette” tab located on the left side of the design environment; the proper palette is chosen by searching for MDLX_SUBv9.0_Substrates in the pull down menu located above the Palette tab. The chosen substrate is selected in this palette and placed in the schematic window. The substrate is assigned to the model by entering the substrate’s instance name into the model’s “Subst” parameter.">Modelithics Substrate Library For Agilent’S Advanced Design System (ADS) Adds Accuracy And Convenience To Board-Based Designs </a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=34&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN44.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN043_MDLX_Genesys_Subst_Lib_App_Note_120921.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 43 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=33&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN043_MDLX_Genesys_Subst_Lib_App_Note_120921.pdf&amp;littype=1" target="blank" title="In Genesys, the desired substrates must be added to the Workspace from the Modelithics substrate library. In this example, the substrates used are: 4 and 10 mil Rogers R04350B™ laminate, 15mil Alumina. In the design schematic window, right-click and choose “TabSubstrates”. A substrates tab will be added behind the schematic">Modelithics Substrate Library For Genesys Adds Accuracy And Convenience To Board-Based Designs</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="genesys" href="/account/dloadtracker?dtype=15&amp;lit=33&amp;returnUrl=%2FDownloads%2FAppNotes%2FGenesys%2FAN43.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN041_SRD_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 41 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=31&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN041_SRD_Final.pdf&amp;littype=1" target="blank" title="Step recovery diodes (SRDs), also called snap-off and charge storage diodes, are frequently used in applications such as frequency multipliers (comb generators), and for wave-shaping in ultra wideband pulse generators [1-3]. Under forward bias conditions the SRD stores charge in the depletion region; this stored charge is then removed when reverse bias is applied and a high junction retarding field is induced. The distinguishing feature of an SRD is its ability to change abruptly from reverse charge storage conduction to cutoff, which is enabled by its relatively long minority carrier lifetime. A device with a very short minority carrier lifetime behaves essentially as a voltage-dependent resistor and has a theoretical harmonic conversion efficiency of 1/n 2 , where n is the harmonic number. In contrast, the SRD functions more like a voltage-dependent capacitor and can produce a harmonic-rich output. A challenge in designing with SRDs, however, is that most device models that are provided in circuit simulation tools do not properly emulate the bias-dependent nature of the transition (or recovery) time between the forward and reverse states. In this application note, a non-linear SRD model that accurately captures bias -dependent transition time is described and validated with frequency- and time-domain data. The device used in this demonstration is the Microsemi SRD P/N GC25176-45, using a pill package (Figure 1, upper left). The characterization was performed using 2-port shunt and 2-port series PCB fixtures; the series configuration, in which the diode is connected vertically between two displaced circuit boards, is somewhat unusual but nev ertheless useful to generate data used for model extraction purposes. The DC and small-signal characteristics of the diode and model are presented first, followed by large-signal RF and time-domain results.">Frequency- And Time -Domain Validation Of A Non-Linear Step Recovery Diode Model</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/App_Note_40_TQT_Reference_Designs_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 40 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=30&amp;returnUrl=%2FDownloads%2FAppNotes%2FApp_Note_40_TQT_Reference_Designs_Final.pdf&amp;littype=1" target="blank" title="This application note demonstratesthe ability to develop accurate reference design simulations using models from Modelithics, Inc. The schematics shown in this note were developed using Agilent’s Advanced Design System (ADS). The reference designs treated in this note are for power amplifiers operating at 900 MHz and 1900 MHz, using TriQuint’s TGF2960-SD 0.5 Watt transistor. Procedures and issues related to correcting the differences between simulated and measured results are explained and implemented. Data from each simulation in the procedure is provided to show the impact that Modelithics Inc. models have on the overall performance of the design. ">Non-Linear Reference Design Simulations</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=30&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN40.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/App_Note_039_Shunt_Caps_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 39 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=29&amp;returnUrl=%2FDownloads%2FAppNotes%2FApp_Note_039_Shunt_Caps_Final.pdf&amp;littype=1" target="blank" title="One of the challenges in developing high-accuracy compact models is enabling sufficient versatility for designers to select layout configurations that are different from the test fixtures used in the characterization and model extraction process. For modeling passive surface -mount components, series two-port fixtures are typically used to obtain the S-parameter data that are subsequently utilized in model fitting. These test fixtures have well-defined reference planes to establish the boundaries of the model. This application note focuses on co-simulation – which combines circuit and numerical electromagnetic (EM) simulation – of surface-mount capacitors in shunt configurations. This is an important topic especially for microwave power amplifier designers, who commonly use shunt mounted capacitors in impedance matching networks that require very precise impedance transformations. The accuracy of the simulations is important at the fundamental design frequency as well as at several harmonics. One situation addressed herein is that when a portion of the mounting pad stack is embedded in the interconnect transmission line that runs orthogonally to the major axis of the component. A second configuration, sometimes used by designers for load sharing purposes, consists of two closely-spaced capacitors mounted side-by-side. The distribution of current on the pad stacks, and how it enters the capacitor(s), varies between the series and shunt two -port fixtures and must be properly emulated in the simulator in order to accurately predict the circuit performance. ">Accurate Co-Simulation Of Surface-Mount Capacitors In Shunt Configurations </a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_Lumped_Couplers_FMDLX_038.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 38 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=28&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_Lumped_Couplers_FMDLX_038.pdf&amp;littype=1" target="blank" title="This application note discusses the design, simulation and measurement results of a lumped element hybrid coupler using the Modelithics CLR Library™ in concert with Agilent Technologies’ Advanced Design System (ADS) simulation software. The motivation for this work stems from the size advantages of lumped element couplers over distributed versions at lower microwave frequencies. Distributed couplers typically use quarter wavelength transmission lines and become physically large at frequencies less than 10 GHz. The basic design principles of lumped couplers are well described in the literature. The use of accurate parasitic models for surface mount inductor and capacitor families enables more reliable design results and proper selection of component values. W hen used in combination with suitably accurate transmission line models, accurate and scalable parasitic models for lumped elements enable layout optimization as well as statistical analyses. The proposed design flow begins with simulation of the lumped element hybrid coupler with ideal models for inductors and capacitors. Then the ideal models are replaced with Modelithics Global Models, and microstrip transmission line and discontinuity models are included to represent layout effects. Selected transmission line geometries are next optimized along with the nominal lumped element part values to obtain the best match of simulated performance results to the ideal model coupler results. Finally, a Monte-Carlo statistical analysis is performed to assess the variability of performance, with anticipated component and board parameter tolerances taken into account. ">Design And Optimization Of Lumped Element Couplers Using Modelithics Global Models</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote_037_Tips_For_EM.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 37 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=27&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote_037_Tips_For_EM.pdf&amp;littype=1" target="blank" title="By default, Modelithics library models include mounting pad effects. Hence, when performing full wave electromagnetic (EM) analyses the pad geometries should not be included in the geometry setup used to define the EM analysis. However, there are reasons to include the pads in the EM simulation instead of having them inside the components models. Some of these reasons are: • Use of a pad size different from the one included with the model, or outside the range of pad dimensions if using a pad-scalable model. • Including the step effect when the feed line is different from the pad width. This step can also be included using an analytical model in a circuit simulation. • Including the effects of coupling between the pads and another part of the circuit. • Desire to simulate the pads along with other printed circuit patterns as a standard practice. Modelithics models include a feature that allows the pads to be deembedded from the model, thus leaving the part effectively without the pads. This feature,named simulation mode 2, is useful in the case thatthe pads need to be included in an EM simulation. The purpose of this application note is to provide some guidelines for the use of Modelithics models when the effect of the pads is included in EM simulations.The EM simulations are performed using the Sonnet Software Suites.">Performing Em-Circuit Co-Simulation With Modelithics Models Using Sonnet Suites</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote_036_Overmolding_Effects.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 36 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=26&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote_036_Overmolding_Effects.pdf&amp;littype=1" target="blank" title="This application note discusses the effects of over-molding,or encapsulation, on the frequency response of surface mount inductors and capacitors. The following parts were tested: Toko LLV0603-F 0201 inductors, Coilcraft 0402CS 0402 inductors, Murata GRP1555C1H 0402 capacitors and Murata GRP0335C1E 0201 capacitors. Sparameter measurements weremade on 5 and 31 mil-thick FR4 test fixtures with and without a Loctite FP4460 coating. Since the addition of the coating increases parasitic capacitance it manifests as a down-wardshift in the resonant frequency of the components. The effect of the coating is significantly more pronounced on the thicker substrate. ">Effects Of Over-Molding On Surface Mount Capacitors And Inductors</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote_035_Proximity_Effects.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 35 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=25&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote_035_Proximity_Effects.pdf&amp;littype=1" target="blank" title="Accounting for coupling effects that occur in circuits comprised of high frequency interconnects and surface mount devices (SMDs) is a complex problem. Very accurate equivalent circuits for the SMDs can be obtained through careful characterization and modeling, while numerical electromagnetic simulation tools can precisely capture the behavior of the interconnect traces. However, there is no consistent way to account for coupling between the SMDs and neighboring devices and/or traces. As a result, the performanceof hybrid circuits with SMDs and traces in close proximity may prove difficult to predict. In this paper the effects of proximity coupling are investigated using the two-component test fixture. Tests were performed using different values of 0402 and 0603 ATC capacitors (600L and 600S series) and 0402 and 0603Coilcraft inductors (0402CS and 0603CS series). For conciseness, only the results for 24 pF and 24 nH components are included herein, although the trends were similar for all part values tested. The substrate used was 60 mil-thick Rogers 4003. Comparisons are given between measurement data, equivalent circuit simulation data, and simulation data based on a combination ofequivalent circuit models for the SMDs and EM-simulation data (using Agilent Technologies Momentum) for the interconnects; the latter is referred to as EM co-simulation. The lumped models used are CAP-ATC-0402/0603-101 and IND-CLC-0402/0603-101 Global models from the Modelithics CLR Library. For the electromagnetic simulations, internal ports were used at connection points corresponding to the outer edges of the component mounting pads. Accordingly, the pad stack effects were included in the SMD equivalent circuits and excluded from the EM simulations. The results that follow pertain to tests performed with one SMD mounted and the second location unpopulated, and with SMDs mounted in both locations.">Proximity Effects In Closely-Spaced Surface Mount Passive Components</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AppNote_034_Tunable_Filter.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 34 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=24&amp;returnUrl=%2FDownloads%2FAppNotes%2FAppNote_034_Tunable_Filter.pdf&amp;littype=1" target="blank" title="This application note discusses layout and simulation tradeoffs that impact the physical size of a hybrid, varactor-tuned microwave band-pass filter, and more significantly the ability to accurately predict its performance using circuit simulation tools. The motivation for the work stems from modeling discrepancies that surfaced during the preliminary development of the filter design. In the initial prototype the circuit configuration and interconnect dimensions were selected during the design/simulation phase in order to optimize filter performance. However, these steps inadvertently limited the ability to accurately predict the frequency response, and the resulting design did not meet expectations. In the second generation design, approaches werefollowed to better ensure correlation between simulated and measured performance. The simulations in this note were performed using Agilent Advanced Design System (ADS). ">Model-Based Design Of A Varactor-Tuned Filter: A Look At Layout Methods For Ensuring Simulation Accuracy</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN032_PA_Design.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 32 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=22&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN032_PA_Design.pdf&amp;littype=1" target="blank" title="This application note guides the user through design of a basic single state narrow-band power amplifier using a Modelithics developed non-linear LDMOS transistor model and Agilent Genesys software. Recommended procedures are advanced and issues related to “closing-the-loop” between simulated and measured results are explained and implemented. Among the issues affecting hybrid MIC PA designs are mounting parasitic inductances and the potential sensitivity of the final PA efficiency, gain and power to tolerace issues affecting matching realization for a a power transitor exhibiting low impedance near the left side of the Smith Chart. Two different designs were realized in parallel, both exhibiting power levels in the 5-7W range and efficiencies in the 50-62 % range at 900MHz. This note focuses on demonstration of a suggested simulation-based PA design methodology, combined with an awareness of overall issues that may need to be addressed carefully for improved design predictability and first-pass success for PCB-based microwave circuits.">Simulation Procedures And Considerations For Power Amplifier Design In Agilent Genesys</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN31_LoadPull_simulation_in_Genesys_090122.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 31 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=21&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN31_LoadPull_simulation_in_Genesys_090122.pdf&amp;littype=1" target="blank" title="This application note guides the user through simulation of power and efficiency loadpull contours using a Modelithics developed non-linear LDMOS transistor model and Agilent Genesys software. An example Genesys workspace fileis provided along with this note that can be used in reproducing the simulation results shown. Load-pull simulation allows the designer to visualize useful amplifier performance data such as output power, efficiency, gain and more asa function of the source and load impedances presented to the active device. The optimum source and load impedance for a particular performance specification can then be selected and presented to the device with appropriately designed input and output matching networks.">Ldmos Load-Pull Simulation Using Agilent Genesys Software</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="genesys" href="/account/dloadtracker?dtype=15&amp;lit=21&amp;returnUrl=%2FDownloads%2FAppNotes%2FGenesys%2FAN31.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/AN30_Large_Signal_Model_Simulation_in_Genesys_update.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 30 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=20&amp;returnUrl=%2FDownloads%2FAppNotes%2FAN30_Large_Signal_Model_Simulation_in_Genesys_update.pdf&amp;littype=1" target="blank" title="This application note guides the user through simulation of DC IV, S-parameters and swept power data of an LDMOS transistor (NEC NE5511279A) using Agilent Genesys software. An example Genesys workspace file is provided along with this note that can be used in reproducing the simulation results shown. The sample LDMOS model used in this application note is a Motorola-Electro-Thermal (MET) model extracted by Modelithics and validated against measured I-V, S-parameters, swept power and loadpull data. This model is used herein to demonstrate variety of simulation including single tone swept power simulations at differentsource and load impedances to show the effect of source and load match on output power, gain and power-added-efficiency. Measured data comparisons are included toadd confidence to the quality of the simulation results. All measurement data shown was acquired by Modelithics, Inc..">Large-Signal Ldmos Model Simulation Using Agilent Genesys Software</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="genesys" href="/account/dloadtracker?dtype=15&amp;lit=20&amp;returnUrl=%2FDownloads%2FAppNotes%2FGenesys%2FAN30.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_GENESYS_LOWPASS_FILTER_SYNTHESIS_029.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 29 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=19&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_GENESYS_LOWPASS_FILTER_SYNTHESIS_029.pdf&amp;littype=1" target="blank" title="This application note covers the design and optimization of a 5 th order lumped element low-pass filter using the Modelithics CLR library in concert with Agilent Genesys software. A demonstration circuit was fabricated and measured using a 16-mil thick Rogers 4003 substrate. The design process began with a conventional Chebyshev implementation in Genesys using ideal inductor and capacitor models. The simulation was then refined by the addition of Modelithics CLR models and careful modeling of the transmission line connections.">Lumped Element Low-Pass Filter Design And Optimization Using Agilent Genesys Software</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="genesys" href="/account/dloadtracker?dtype=15&amp;lit=19&amp;returnUrl=%2FDownloads%2FAppNotes%2FGenesys%2FAN29.zip&amp;littype=1"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_PIN_LIMITER_DESIGN_AN028.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 28 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=18&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_PIN_LIMITER_DESIGN_AN028.pdf&amp;littype=1" target="blank" title="This application note focuses on the design and measurement validation of a 1.8 GHz PIN diode limiter circuit. The design utilizes Aeroflex/Micrometrics MLP7100 limiter diodes (CS19-1 package) mounted on 16 mil-thick Rogers 4003 microwave laminate. The MLP7100 device has a breakdown voltage in the 20-45 V range and a typical threshold power level (1 dB increase in insertion loss) of +10 dBm at 1 GHz. A non-linear model from the Modelithics NLD Library was used in the design process. Other Aeroflex/Micrometrics diode models in the library currently include those for the MLP7110, -7120, and -7101 devices. The following sections summarize the MLP7100 model development and validation, the dualdiode limiter, lumped-element matching circuit design, and frequency- and time-domain characteristics of the 1.8 GHz limiter. Small- and large-signal measurements of the limiter correspond very closely to the predicted performance. The anti-parallel diode configuration used in the design provides a symmetric response to an input AC waveform, thus suppressing the generation of even-order harmonics – this characteristic is verified using simulations of the output spectrum and time-domain waveforms. ">Accurate Non-Linear Models Enable Successful Pin Limiter Design </a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_PI_Network_026.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 26 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=16&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_PI_Network_026.pdf&amp;littype=1" target="blank" title="Designing matching networks is one of the key aspects of RF/Microwave design. A lossless network that matches an arbitrary load to real impedance has to have at least two reactive elements. However, two elements do not give control over the bandwidth and the degree of match simultaneously. Three-element matching networks, i.e. Pi- and Tee-networks, provide additional control of the frequency response. In this application note we explore the idea of designing an all-capacitor Pi matching network by using one of the elements beyond its self-resonant frequency, when it has become inductive rather than capacitive. Essentially, the effective series inductance (ESL) of the series element in the Pinetwork is utilized. The design process is enabled via the broad-band accuracy of the Modelithics Global capacitor models, in particular those for ATC 600L 0402 capacitors. The use of method of moments co-simulation, wherein numerical electromagnetic simulation is used to represent the distributed interconnects and discrete models are used for the lumped components, is also demonstrated.">Capacitor PI Network For Impedance Matching</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_Varactor_Tolerance_023.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 23 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=14&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_Varactor_Tolerance_023.pdf&amp;littype=1" target="blank" title="The ability to specify tolerance in the nominal capacitance has been added to selected models in the Modelithics Non-Linear Diode (NLD) Model Library in order to emulate the variation typically specified in manufacturer data sheets. The feature will be included in additional models in future library releases. This application note briefly reviews this new capability and provides suggestions on how it should be used. A sample simulation schematic from Agilent’s Advanced Design System is shown in Figure 1. Included in the schematic is the VAR_TSH_TG1A_005 model for the Toshiba P/N 1SV280 varactor diode. The model parameter used to specify the capacitance tolerance is Cap_tolerance– this parameter should have a nominal value of 1, with the tolerance specified as a percentage (in this case +/- 12%). The Res_toleranceparameter can be used in a similar fashion to emulate variation in the series resistance of the device, another parameter that is often specified by diode manufacturers.">Tolerance In Surface Mount Varactor Diodes</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_PartValue_Tolerance_022.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 22 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=13&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_PartValue_Tolerance_022.pdf&amp;littype=1" target="blank" title="The part value tolerance specified by component manufacturers for surface mount RLCs is given as either a percentage of the nominal value (e.g. 1 pF +/- 20%), or as a +/- deviation (e.g. 1 +/- 0.2 pF). This type of specification generally carries with it the assumption that the part value distribution is Gaussian about the nominal value. In practice, however, the actual distribution may be bi-modal; instead of 1 +/- 0.2 pF the distribution may be closer to 0.9 +/- 0.1 pF and/or 1.1 +/- 0.1 pF. This type of distribution is sometimes referred to as “rabbit ears” and occurs when the manufacturer must selectively sort parts that are closer to the nominal value in order to supply the “tight tolerance” version of the components. Thus, tight tolerance parts tend to follow Gaussian distributions about the nominal value while looser tolerance parts tend to have bi-modal distributions. Unfortunately, there is not a convenient way to represent bi-modal distributions in most of today’s popular electronic design automation tools. The available options are typically either a Gaussian distribution or a uniform distribution. The purpose of this application note is to investigate different simulation scenarios concerned with statistical distributions of capacitor values used in a band-pass filter. The band-pass filter is that described in Modelithics Application Notes 017 and 020 ">Part Value Tolerance In Surface Mount Components</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_0201_FILTERS_021.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 21 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=12&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_0201_FILTERS_021.pdf&amp;littype=1" target="blank" title="This application note demonstrates the performance of low-pass PCB filters using 0201 surface mount components (Johanson Technology’s (JOH) 0201L capacitors and L_05xxx inductors). Two circuits are presented: a maximally flat low-pass filter and a Chebyshev equal-ripple lowpass filter. Both filters were designed in a Pi-network configuration using five elements - three series inductors and two shunt capacitors. Initial designs were generated using standard filter design theory assuming ideal components, after which values close to the ideal L and C values were selected from the available JOH parts. The measured data was compared to the model circuit, which uses Modelithics Global models for the surface mount components. The model circuit was also compared to the schematic that uses ideal capacitors and inductors. A 14 milthick FR4 test fixture was used.">Filter Design Using 0201 Surface Mount LC&#39;S</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_BANDPASS_FILTER_020.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 20 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=11&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_BANDPASS_FILTER_020.pdf&amp;littype=1" target="blank" title="This application note covers the design and optimization of a lumped element 5 th order band pass filter using the Modelithics CLR library. The demonstration circuit that is developed uses a 16-mil thick Rogers 4003 substrate. The design process begins with a conventional Chebyshev implementation using ideal inductor and capacitor models and proceeds to refining the simulation with the addition of accurate CLR models and transmission line interconnect models.">Lumped Element Band-Pass Filter Design And Optimization</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_HIGHPASS_FILTER_019.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 19 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=10&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_HIGHPASS_FILTER_019.pdf&amp;littype=1" target="blank" title="This application note covers the design and optimization of a 5 th order lumped element high pass filter using the Modelithics CLR library. The demonstration circuit that is developed uses a 16-mil thick Rogers 4003 substrate. The design process begins with a conventional Chebyshev implementation using ideal inductor and capacitor models and proceeds to refining the simulation with the addition of accurate CLR models and transmission line interconnect models. ">Lumped Element High-Pass Filter Design And Optimization</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_LOWPASS_FILTER_018.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 18 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=9&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_LOWPASS_FILTER_018.pdf&amp;littype=1" target="blank" title="This application note covers the design and optimization of a 5 th order lumped element lowpass filter using the Modelithics CLR library. The demonstration circuit that is developed uses a 16-mil thick Rogers 4003 substrate. The design process begins with a conventional Chebyshev implementation using ideal inductor and capacitor models and proceeds to refining the simulation with the addition of accurate CLR models and transmission line interconnect models.">Lumped Element Low-Pass Filter Design And Optimization</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_LUMPED_FILTERS_017.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 17 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=8&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_LUMPED_FILTERS_017.pdf&amp;littype=1" target="blank" title="Three benchmark filter circuits are introduced in this application note that demonstrate how the Modelithics CLR Library™ can predict performance precisely, improving design flow efficiency. The three filter circuits are: 1) 2.2 GHz low-pass 2) 900 MHz high-pass 3) 5.4 GHz band-pass The filters were designed, fabricated and measured. Excellent agreement was obtained between measurement of the final product and simulations using Modelithics CLR Library models. The CLR Library consists of Global Models™ whose format and advantages are well described in a separate application note 1 . This note discusses the design process, each simulation and optimization step, and measured and simulated results for each filter. The design methods followed for these filters, which all demonstrate “close-the-loop” measurement and simulation results in one pass, can easily be emulated for filter, matching, and bias network design in your environment. The availability of complete hardware and simulation kits for these filters allows interested designers the opportunity to thoroughly understand how the simulations are set up, and to make their own measurements of the filter circuits presented. ">Lumped Element Filter Design And Optimization</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_PART_COUNT_015.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 15 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=6&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_PART_COUNT_015.pdf&amp;littype=1" target="blank" title="This application note demonstrates that accurate, substratescalable Modelithics models can be used to reduce circuit size, part count and cost. A baseline (ideal element) 5 th order low-pass filter is assumed to provide the required performance over the band of interest. The response of this same topology, when simulated using vendor-provided Sparameter data for the inductors and capacitors, will differ due to parasitic effects associated with the components. Additionally, since the parasitic effects are in fact substrate dependent, the Modelithics models can be used to investigate the performance of the filter as a function of substrate height and dielectric constant. The part scaling feature of the Modelithics models also allows circuit designers to rapidly optimize the L- and C-values, and in this example it is shown that a 3rd order filter provides nearly an identical response to the ideal 5th order topology.">Reducing Part Count In Low-Pass Filter Designs</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_14_Tee_Network.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 14 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=5&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_14_Tee_Network.pdf&amp;littype=1" target="blank" title="The Tee-network shown below was built and characterized to demonstrate the substrate-scaling functionality of the Modelithics Global™ capacitor models. The schematic includes three instances of the CAP_ATC_0805_001 model, each set to 0.5 pF. On 59 mil-thick FR4, the network provides a simple solution for a moderate bandwidth, 2.5 GHz high-pass filter that has ~20 dB low-band isolation, without using inductors. However, the performance is seriously degraded when using a 5 mil-thick FR4 substrate.">Capacitor Tee Network Characteristics</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/AppNotes/MDLX_APP_NOTE_10_Substrate_Variation.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td> 10 </td> <td width="52%"> <a href="/account/dloadtracker?dtype=7&amp;lit=1&amp;returnUrl=%2FDownloads%2FAppNotes%2FMDLX_APP_NOTE_10_Substrate_Variation.pdf&amp;littype=1" target="blank" title="&amp;#39;Substrate properties have a significanteffect on the performance of SMD components. When using Modelithics substrate-scalable Global RLC models it is important to properly specify the thickness and dielectric constant of the PCB material that will be used in the final circuit design. For determining circuit yield, it is equally important to consider the impact of substrate thickness variation. Typical FR4 thickness can vary by +/- 1 mil or more across a board and from lot-to-lot. On thin substrates, this variation can have a greater impact than variation in the SMD part value tolerance itself. To demonstrate the substrate and part value tolerance effects, a 3rd order lumped element band-pass filter was tested on both 40- and 5-mil thick FR4. The difference in the responses on the two substrates is significant – with the bandwidth decreasing from 47% (40 mil) to 30% (5 mil) and over 100 MHz shift in the center frequency&amp;#39;">Accounting For Substrate Thickness Tolerance In PCB Simulations</a> </td> <td width="14%"> 1/1/2014 </td> <td width="30%"> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1&amp;returnUrl=%2FDownloads%2FAppNotes%2FADS%2FAN10.zip&amp;littype=1"> </a> </td> </tr> </tbody> </table> <br /> <!-- Get Tabs--> <h4> Brochures </h4> <table class="table display"> <thead> <tr> <th width="5%"> &nbsp; </th> <th width="45%"> Title </th> <th width="35%"> Author </th> <th width="14%"> Date </th> </tr> </thead> <tbody> <tr> <td width="5%"> <a href=/FreeDownloads/Brochures/X-Parameters_Meas_Update.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="45%"> <a href="/account/dloadtrackerfree?dtype=11&amp;lit=54&amp;returnUrl=%2FFreeDownloads%2FBrochures%2FX-Parameters_Meas_Update.pdf&amp;littype=2" target="_blank">*X-Parameters Measurement and Modeling Service</a> </td> <td width="35%"> Modelithics, Inc. </td> <td width="14%"> 1/1/2014 </td> </tr> </tbody> <tbody> <tr> <td width="5%"> <a href=/FreeDownloads/Brochures/X-Parameter_Conversion_0502_update.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="45%"> <a href="/account/dloadtrackerfree?dtype=11&amp;lit=55&amp;returnUrl=%2FFreeDownloads%2FBrochures%2FX-Parameter_Conversion_0502_update.pdf&amp;littype=2" target="_blank">Unleash Compact Transistor Models With X-Parameters Technology</a> </td> <td width="35%"> Modelithics, Inc. </td> <td width="14%"> 1/1/2014 </td> </tr> </tbody> </table> <br /> <!-- Get Tabs--> <h4 class="HeadingTitleMVP">Published Articles </h4> <table class="table display"> <thead> <tr> <th width="3%"> &nbsp; </th> <th width="42%"> Title </th> <th width="40%"> Author </th> <th width="14%"> Date </th> <th>Example File</th> </tr> </thead> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PublishedPaper/MWR_0800_REPRINT-MODELITHICS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=12&amp;lit=1774&amp;returnUrl=%2FFreeDownloads%2FPublishedPaper%2FMWR_0800_REPRINT-MODELITHICS.pdf&amp;littype=18" target="_blank">Model-Based Optimization Outperforms LNA Datasheet Specifications</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 4/16/2021 </td> <td> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=1774&amp;returnUrl=%2FDownloads%2FPublishedPaper%2FADS%2FLiterature_1774.zip&amp;littype=18"> </a> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.highfrequencyelectronics.com/index.php?option=com_content&amp;view=article&amp;id=2431:temperature-dependent-microwave-attenuator-models&amp;catid=211&amp;Itemid=189 target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=12&amp;lit=1753&amp;returnUrl=https%3A%2F%2Fwww.highfrequencyelectronics.com%2Findex.php%3Foption%3Dcom_content%26view%3Darticle%26id%3D2431%3Atemperature-dependent-microwave-attenuator-models%26catid%3D211%26Itemid%3D189&amp;littype=18" target="_blank">Temperature Dependent Microwave Attenuator Models</a> </td> <td width="40%"> Hetvi Patel, Eric Valentino, Hugo Morales and Larry Dunleavy </td> <td width="14%"> 12/31/2020 </td> <td> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/PublishedPaper/WAMICON_Submission_IM3_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=228&amp;returnUrl=%2FDownloads%2FPublishedPaper%2FWAMICON_Submission_IM3_Final.pdf&amp;littype=4" target="_blank">An Evaluation of Static Single-tone X-parameter Models in Time-varying Envelope Domain Simulations of Intermodulation Distortion Performance </a> </td> <td width="40%"> K. Kellogg, J. Liu, and L. Dunleavy of Modelithics.Inc </td> <td width="14%"> 4/30/2015 </td> <td> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PublishedPaper/1111_HFE_XParameters_Update.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=12&amp;lit=158&amp;returnUrl=%2FFreeDownloads%2FPublishedPaper%2F1111_HFE_XParameters_Update.pdf&amp;littype=18" target="_blank">Evaluating *X-parameter, P2D and S2D Models for Characterizing Nonlinear Behavior in Active Devices</a> </td> <td width="40%"> Jiang Liu and Hugo Morales, Modelithics Inc.; Lawrence P. Dunleavy, Modelithics Inc. and University of South Florida; and Loren Betts, Agilent Technologies </td> <td width="14%"> 11/1/2011 </td> <td> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=158&amp;returnUrl=%2FDownloads%2FPublishedPaper%2FADS%2FLiterature_158.zip&amp;littype=18"> </a> </td> </tr> </tbody> </table> <script> $(document).ready(function () { $('[data-toggle="tooltip"]').tooltip(); }); </script> <br /> <!-- Get Tabs--> <h4 class="HeadingTitleMVP">White Papers</h4> <table class="table display"> <thead> <tr> <th width="3%"> &nbsp; </th> <th width="42%"> Title </th> <th width="40%"> Author </th> <th width="14%"> Date </th> <th> Example </th> </tr> </thead> <tbody> <tr> <td width="3%"> <a href=/Downloads/WhitePapers/Blurring_the_line_between_EDA_and_Test.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtracker?dtype=10&amp;lit=174&amp;returnUrl=%2FDownloads%2FWhitePapers%2FBlurring_the_line_between_EDA_and_Test.pdf&amp;littype=5" target="_blank">Blurring the line between EDA &amp; Test</a> </td> <td width="40%"> Russ Henke </td> <td width="14%"> 1/10/2012 </td> <td> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/WhitePapers/ACCURATE_RF_CIRCUIT_SIMULATION-ADDED.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtracker?dtype=10&amp;lit=172&amp;returnUrl=%2FDownloads%2FWhitePapers%2FACCURATE_RF_CIRCUIT_SIMULATION-ADDED.pdf&amp;littype=5" target="_blank">Accurate RF Circuit Simulation</a> </td> <td width="40%"> Cotter W. Sayre </td> <td width="14%"> 11/1/2006 </td> <td> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/WhitePapers/RFGlobalNet_0201_Filters.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtracker?dtype=10&amp;lit=169&amp;returnUrl=%2FDownloads%2FWhitePapers%2FRFGlobalNet_0201_Filters.pdf&amp;littype=5" target="_blank">Filter Design With 0201 Components</a> </td> <td width="40%"> D. Aristizabal, R. Connick, and T. Weller </td> <td width="14%"> 1/26/2006 </td> <td> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/WhitePapers/MDLX_BENCHMARK_FILTERS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtracker?dtype=10&amp;lit=170&amp;returnUrl=%2FDownloads%2FWhitePapers%2FMDLX_BENCHMARK_FILTERS.pdf&amp;littype=5" target="_blank">Benchmark Filter Designs: Benchmark Filter Designs </a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 7/3/2005 </td> <td> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/WhitePapers/Modelithics_R,_L,_C_Models.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtracker?dtype=10&amp;lit=173&amp;returnUrl=%2FDownloads%2FWhitePapers%2FModelithics_R%2C_L%2C_C_Models.pdf&amp;littype=5" target="_blank">Modelithics R, L, C Models: Getting It Right the First Time</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 3/14/2003 </td> <td> </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/WhitePapers/MPD_View_Point_020401.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtracker?dtype=10&amp;lit=171&amp;returnUrl=%2FDownloads%2FWhitePapers%2FMPD_View_Point_020401.pdf&amp;littype=5" target="_blank">Modeling - The Hot Potato In The RF &amp; Microwave Industry</a> </td> <td width="40%"> Dr. Larry Dunleavy, </td> <td width="14%"> 4/1/2002 </td> <td> </td> </tr> </tbody> </table> <!-- Get Tabs--> <h4 class="HeadingTitleMVP">White Papers (Registration not required)</h4> <table class="table display"> <thead> <tr> <th width="3%"> &nbsp; </th> <th width="42%"> Title </th> <th width="40%"> Author </th> <th width="14%"> Date </th> <th>Example</th> </tr> </thead> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/WhitePapers/WhPaper_Equiv_Circuit_Model_Note_Final_ADS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="45%"> <a href="/account/dloadtrackerfree?dtype=10&amp;lit=220&amp;returnUrl=%2FFreeDownloads%2FWhitePapers%2FWhPaper_Equiv_Circuit_Model_Note_Final_ADS.pdf&amp;littype=11" target="_blank">Understanding S-Parameter Vs. Equivalent Circuit-based Models For RLC Component Simulations In Keysight ADS And Genesys</a> </td> <td width="40%"> Modelithics: Scott Skidmore, Laura Levesque, And Scott Muir, Along With Jason Boh And How-siang of Keysight Technologies </td> <td width="14%"> 12/4/2014 </td> <td> <a class="ads" href="/account/dloadtrackerfree?dtype=15&amp;lit=220&amp;returnUrl=%2FDownloads%2FWhitePapers%2FADS%2FLiterature_220.zip&amp;littype=11"> </a> </tr> </tbody> </table> <br /> <!-- Get Tabs--> <h4 class="HeadingTitleMVP">Release Notes</h4> <table class="table display"> <thead> <tr> <th width="3%"> &nbsp; </th> <th width="45%"> Title </th> <th width="40%"> Author </th> <th width="14%"> Date </th> </tr> </thead> <tbody> <tr> <td width="3%"> <a href=/Downloads/ReleaseNotes/MDLX_v22.5_ReleaseNotes_ADS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtracker?dtype=8&amp;lit=1893&amp;returnUrl=%2FDownloads%2FReleaseNotes%2FMDLX_v22.5_ReleaseNotes_ADS.pdf&amp;littype=7" target="_blank">Modelithics Releases the COMPLETE Library v22.5 for Keysight ADS</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 10/14/2022 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/ReleaseNotes/MDLX_v20.5_ReleaseNotes_ADS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtracker?dtype=8&amp;lit=1718&amp;returnUrl=%2FDownloads%2FReleaseNotes%2FMDLX_v20.5_ReleaseNotes_ADS.pdf&amp;littype=7" target="_blank">Modelithics COMPLETE v20.5 For Keysight ADS Release Notes</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 9/8/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/Downloads/ReleaseNotes/MDLX_v20.0_ReleaseNotes_ADS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtracker?dtype=8&amp;lit=1673&amp;returnUrl=%2FDownloads%2FReleaseNotes%2FMDLX_v20.0_ReleaseNotes_ADS.pdf&amp;littype=7" target="_blank">Modelithics COMPLETE v20.0 For Keysight ADS Release Notes</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 3/10/2020 </td> </tr> </tbody> </table> <p>* X-parameters is a registered trademark of KeysightTechnologies. </p> <br /> </div> <div id="presentations" class="tab-pane"> <!-- Get Tabs--> <h4 class="HeadingTitleMVP">Presentations</h4> <table class="table display"> <thead> <tr class="text-products"> <th width="42%"> Title &nbsp;&nbsp;<img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /> </th> <th width="40%"> Author </th> <th width="14%"> Date </th> <th> Related Files </th> </tr> </thead> <tbody> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=1595&amp;returnUrl=%2FDownloads%2FPresentations%2FModelithics_Qorvo_GaN_Library_for_PA_Success.pdf&amp;littype=6" target="blank" title="">Modelithics Qorvo GaN Model Library for PA Success</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 4/4/2019 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=1596&amp;returnUrl=%2FDownloads%2FPresentations%2FModelithicsOverview_Tutorial_2019.pdf&amp;littype=6" target="blank" title="">Modelithics Advanced Simulation Models – Overview and Tutorial</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 4/4/2019 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=1529&amp;returnUrl=%2FDownloads%2FPresentations%2FDiscrete%20Optimization%20With%20Modelithics%20Models%20in%20ADS.PDF&amp;littype=6" target="blank" title="">Discrete Optimization With Modelithics Models in ADS</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 10/14/2018 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=1476&amp;returnUrl=%2FDownloads%2FPresentations%2FModelithics_XPar_Tutorial_2017.08.10.pdf&amp;littype=6" target="blank" title="">Working with Modelithics X-Parameters*-Based Models for Mini-Circuits Amplifiers</a> </td> <td width="40%"> Dr. Larry Dunleavy </td> <td width="14%"> 8/10/2017 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=213&amp;returnUrl=%2FDownloads%2FPresentations%2FModelithics_LTCC_Tutorial.pdf&amp;littype=6" target="blank" title="">Designing with Modelithics Substrate-Scalable Models for Mini-Circuits LTCC Filters</a> </td> <td width="40%"> Dr. Larry Dunleavy </td> <td width="14%"> 8/4/2017 </td> <td> <a class="ads" href="/account/dloadtracker?dtype=15&amp;lit=213&amp;returnUrl=%2FDownloads%2FPresentations%2FADS%2FLiterature_213.zip&amp;littype=6"> </a> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=1465&amp;returnUrl=%2FDownloads%2FPresentations%2FCSICS_MDLX_QORVO_Final.pdf&amp;littype=6" target="blank" title="A novel empirical thermal modeling technique is proposed to allow improved prediction of channel temperature for GaN HEMT power devices when driven with pulsed DC/RF signals. The proposed thermal model contains a multiple-pole RC network and adapts itself based on the pulse width and duty cycles of the input signals. The model, which is incorporated within an Angelov-based compact non-linear model, is derived from numerical physics-based thermal analysis results. The model enables designers to conveniently estimate peak and average channel temperatures for specified pulse conditions and load and source impedances. The model can be used in either transient or in more time-efficient harmonic balance simulations.">Compact Thermal Modeling of GaN HEMT Devices for Pulsed and CW Applications (2016 IEEE Compound Semiconductor IC Symposium) </a> </td> <td width="40%"> Dr. Jiang Liu, Dr. Miriam Calvo, Dr. Larry Dunleavy, Hugo Morales (Modelithics), Richard Martin , Mark Woods , and Neil Craig (Qorvo) </td> <td width="14%"> 7/20/2017 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=1421&amp;returnUrl=%2FDownloads%2FPresentations%2FEDICON_MDLX_Qorvo_GaN15_Final.pdf&amp;littype=6" target="blank" title="GaN has many design wins in high power applications and also useful for LNAs. Reduced gate length processes, such as 0.15um, have emerged to address higher frequencies (e.g. &amp;gt; 10 GHz). This presentation will focus on advanced models developed for a family of 0.15 um GaN die addressing both low noise and high power applications. ">Non-Linear and Noise Modeling of a 0.15um GaN Die Family</a> </td> <td width="40%"> Dr. Larry Dunleavy, Dr. Jiang Liu, Dr. Miriam Calvo, Hugo Morales from Modelithics, Inc. and Dr. Raj Santhakumar from Qorvo USA, Inc. </td> <td width="14%"> 9/23/2016 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=1366&amp;returnUrl=%2FDownloads%2FPresentations%2FModelithics_Advanced_System_Level_Models.pdf&amp;littype=6" target="blank" title="">Advanced System Level Component Models And Applications</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 6/29/2015 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=1367&amp;returnUrl=%2FDownloads%2FPresentations%2FIMS2015_MicroApps_System_Level_Modelithics.pdf&amp;littype=6" target="blank" title="">Flexible And Scalable Models For Microwave System Design Success (microapps)</a> </td> <td width="40%"> Kevin Kellogg, Jiang Liu, Hetvipatel, Hugo Morales And Larry Dunleavy, Modelithics, Inc. </td> <td width="14%"> 6/29/2015 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=1338&amp;returnUrl=%2FDownloads%2FPresentations%2FModelithics_in_Accurate_ADS_Momentum_Co-Simulations_2018.pdf&amp;littype=6" target="blank" title="&amp;quot;Modelithics models are measurement-based equivalent circuit models that account for component and substrate-related parasitic effects.&amp;quot;">Modelithics in Accurate ADS / Momentum Co-Simulation</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 6/29/2015 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=1363&amp;returnUrl=%2FDownloads%2FPresentations%2FIMS2015_MicroApps_PA_Circuit_Level_Validation_of_New_GaN_Model_Library_Modelithics_final.pdf&amp;littype=6" target="blank" title="">Pa Circuit Level Validation of a New Non-linear GAN Model Library</a> </td> <td width="40%"> Larry Dunleavy, Hugo Morales And Scott Skidmore, Modelithics, Inc. </td> <td width="14%"> 6/18/2015 </td> <td> <a class="youtube" href="/account/dloadtracker?dtype=15&amp;lit=1363&amp;returnUrl=IMS2015_MicroApps_PA_Circuit_Level_Validation_of_New_GaN_Model_Library_Modelithics_final.pdf&amp;littype=6"> </a> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=204&amp;returnUrl=%2FDownloads%2FPresentations%2FAgilent-Genesis-Modelithics-PA-Webinar_d.pdf&amp;littype=6" target="blank" title="">High Power Amplifier Design Using Non-Linear Models in Agilent Genesys</a> </td> <td width="40%"> Larry Dunleavy in an Agilent Technologies sponsored webcast in July 2009 </td> <td width="14%"> 9/5/2012 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=200&amp;returnUrl=%2FDownloads%2FPresentations%2FSonnet_MDLX_IMS2012-SMD-Models-that-work.pdf&amp;littype=6" target="blank" title="">SMD Models That Really Work</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 6/20/2012 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=203&amp;returnUrl=%2FDownloads%2FPresentations%2FWAMI_EmCosim_X-parameter_Final_w_update.pdf&amp;littype=6" target="blank" title="">Advances in Linear and Non-Linear Modeling for Improved Microwave Design, IEEE WAMICON 2012 Presentation </a> </td> <td width="40%"> L. Dunleavy, T. Weller, J. Liu, H. Morales and S. Skidmore </td> <td width="14%"> 4/16/2012 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=198&amp;returnUrl=%2FDownloads%2FPresentations%2FBenchmark_Comparison_of_PA_Behavioral_Models_by_Modelithics-share.pdf&amp;littype=6" target="blank" title="">A Benchmark Comparison of *X-parameter, P2D and S2D Models for Representing Microwave Amplifier Performance</a> </td> <td width="40%"> 2011 IEEE Topical Symposium on Power Amplifiers for Wireless Communication </td> <td width="14%"> 11/29/2011 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=198&amp;returnUrl=%2FDownloads%2FPresentations%2FBenchmark_Comparison_of_PA_Behavioral_Models_by_Modelithics-share.pdf&amp;littype=6" target="blank" title="">A Benchmark Comparison of *X-parameter, P2D and S2D Models for Representing Microwave Amplifier Performance</a> </td> <td width="40%"> 2011 IEEE Topical Symposium on Power Amplifiers for Wireless Communication </td> <td width="14%"> 11/29/2011 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=179&amp;returnUrl=%2FDownloads%2FPresentations%2FBrief_MDLX_Overview_2012.pdf&amp;littype=6" target="blank" title="Founded in 2001 in the State of Florida, USA • Currently Represented in Japan, Israel , Europe, Scandinavia, India and USA • Experienced engineering team dedicated to RF &amp;amp; Microwave measurement and modeling • Consistent measurement, extraction, validation and documentation • Latest linear/non-linear models in leading EDA tools • Substrate-scalable, versatile and accurate models • Long term customer support and maintenance">Modelithics Overview Presentation</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 7/21/2011 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=205&amp;returnUrl=%2FDownloads%2FPresentations%2FAgilent-Genesis-Modelithics-PA-Webinar_d.pdf&amp;littype=6" target="blank" title="">High Power Amplifier Design Using Non-Linear Models in Agilent Genesys</a> </td> <td width="40%"> Marvin Marbell, Chris Reul, Rick Connick, Lawrence Dunleavy </td> <td width="14%"> 7/16/2009 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=195&amp;returnUrl=%2FDownloads%2FPresentations%2FImproved_First-Pass_Microwave_Circuit_Design_Success_.pdf&amp;littype=6" target="blank" title="">Applications of Accurate Component Models for Improved First-Pass Microwave Circuit Design Success</a> </td> <td width="40%"> Sonoko Akamatsu , University of South Florida, June 2005 </td> <td width="14%"> 6/28/2005 </td> <td> </td> </tr> <tr> <td width="42%"> <a href="/account/dloadtracker?dtype=12&amp;lit=194&amp;returnUrl=%2FDownloads%2FPresentations%2FWinning_PA_Design.pdf&amp;littype=6" target="blank" title="">Class AB Power Amplifier Design for IMS 2005 Student Competition</a> </td> <td width="40%"> Sonoko Akamasu, as presented at IMS 2005 </td> <td width="14%"> 6/1/2005 </td> <td> </td> </tr> </tbody> </table> <br /> <!-- Get Tabs--> <h4 class="HeadingTitleMVP">Videos</h4> <table class="table display"> <thead> <tr> <th width="3%"> &nbsp; </th> <th width="42%"> Title </th> <th width="40%"> Author </th> <th width="14%"> Date </th> </tr> </thead> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=REeLGcl265M&amp;t=2s target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1837&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DREeLGcl265M%26amp%3Bt%3D2s&amp;littype=16" target="_blank">Modelithics Short Waves: Using Modelithics Models with RFPro in Keysight PathWave ADS</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 1/11/2022 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=VnDJbLmjAMI target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1838&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DVnDJbLmjAMI&amp;littype=16" target="_blank">Modelithics Short Waves: Discrete Optimization with Modelithics Models in Keysight PathWave ADS</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 1/11/2022 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=ILiFaWppqro target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1816&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DILiFaWppqro&amp;littype=16" target="_blank">Modelithics Deeper Dive: Using Modelithics Models with RFPro in Keysight PathWave ADS</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 11/22/2021 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=LKzkup0ELwA target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1817&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DLKzkup0ELwA&amp;littype=16" target="_blank">Modelithics Short Waves: Optimized LNA Design</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 11/22/2021 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=CtzPU79wHhk target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1794&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DCtzPU79wHhk&amp;littype=16" target="_blank">Modelithics Deeper Dive: Optimized LNA Design</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 8/23/2021 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=MO5EwfXyr2I target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1722&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DMO5EwfXyr2I&amp;littype=16" target="_blank">Modelithics 5 Minute Feature - Advanced Pad Configurations</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 9/23/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=x-WR010xxmU&amp;t=6s target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1550&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3Dx-WR010xxmU%26amp%3Bt%3D6s&amp;littype=16" target="_blank">Full Modelithics COMPLETE Library Overview</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 7/29/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=xpiPzhE0fSI target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1683&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DxpiPzhE0fSI&amp;littype=16" target="_blank">Modelithics QuickStart Tutorial for Keysight ADS </a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 5/20/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=MzLSji3NLVE&amp;t=5s target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1682&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DMzLSji3NLVE%26amp%3Bt%3D5s&amp;littype=16" target="_blank">Modelithics Licensing Setup</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 5/18/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=N0dLVMoVQSI target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1398&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DN0dLVMoVQSI&amp;littype=16" target="_blank">How to Design an RF Power Amplifier: Class J</a> </td> <td width="40%"> Matt Ozalas </td> <td width="14%"> 5/7/2016 </td> </tr> </tbody> </table> </div> <div id="videos" class="tab-pane"> <!-- Get Tabs--> <h4 class="HeadingTitleMVP">Videos</h4> <table class="table display"> <thead> <tr> <th width="3%"> &nbsp; </th> <th width="42%"> Title </th> <th width="40%"> Author </th> <th width="14%"> Date </th> </tr> </thead> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=REeLGcl265M&amp;t=2s target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1837&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DREeLGcl265M%26amp%3Bt%3D2s&amp;littype=16" target="_blank">Modelithics Short Waves: Using Modelithics Models with RFPro in Keysight PathWave ADS</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 1/11/2022 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=VnDJbLmjAMI target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1838&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DVnDJbLmjAMI&amp;littype=16" target="_blank">Modelithics Short Waves: Discrete Optimization with Modelithics Models in Keysight PathWave ADS</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 1/11/2022 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=ILiFaWppqro target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1816&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DILiFaWppqro&amp;littype=16" target="_blank">Modelithics Deeper Dive: Using Modelithics Models with RFPro in Keysight PathWave ADS</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 11/22/2021 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=LKzkup0ELwA target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1817&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DLKzkup0ELwA&amp;littype=16" target="_blank">Modelithics Short Waves: Optimized LNA Design</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 11/22/2021 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=CtzPU79wHhk target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1794&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DCtzPU79wHhk&amp;littype=16" target="_blank">Modelithics Deeper Dive: Optimized LNA Design</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 8/23/2021 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=MO5EwfXyr2I target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1722&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DMO5EwfXyr2I&amp;littype=16" target="_blank">Modelithics 5 Minute Feature - Advanced Pad Configurations</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 9/23/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=x-WR010xxmU&amp;t=6s target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1550&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3Dx-WR010xxmU%26amp%3Bt%3D6s&amp;littype=16" target="_blank">Full Modelithics COMPLETE Library Overview</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 7/29/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=xpiPzhE0fSI target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1683&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DxpiPzhE0fSI&amp;littype=16" target="_blank">Modelithics QuickStart Tutorial for Keysight ADS </a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 5/20/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=MzLSji3NLVE&amp;t=5s target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1682&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DMzLSji3NLVE%26amp%3Bt%3D5s&amp;littype=16" target="_blank">Modelithics Licensing Setup</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 5/18/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=https://www.youtube.com/watch?v=N0dLVMoVQSI target="blank"><img src="/Images/DownloadIcon/YouTube.jpg" width="35" height="35" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=18&amp;lit=1398&amp;returnUrl=https%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DN0dLVMoVQSI&amp;littype=16" target="_blank">How to Design an RF Power Amplifier: Class J</a> </td> <td width="40%"> Matt Ozalas </td> <td width="14%"> 5/7/2016 </td> </tr> </tbody> </table> </div> <div id="promos" class="tab-pane"> <!-- Get Tabs--> <h4 class="HeadingTitleMVP"> Print Ads</h4> <table class="table display"> <thead> <tr> <th width="3%"> &nbsp; </th> <th width="42%"> Title </th> <th width="40%"> Author </th> <th width="14%"> Date </th> </tr> </thead> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PrintAds/1710_Keysight_Half.PNG target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=15&amp;lit=1489&amp;returnUrl=%2FFreeDownloads%2FPrintAds%2F1710_Keysight_Half.PNG&amp;littype=15" target="_blank">ADS Print Ad</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 1/1/2018 </td> </tr> </tbody> </table> <!-- Get Tabs--> <!-- Get Tabs--> <h4 class="HeadingTitleMVP"> Press Release</h4> <table class="table display"> <thead> <tr> <th width="3%"> &nbsp; </th> <th width="42%"> Title </th> <th width="40%"> Author </th> <th width="14%"> Date </th> </tr> </thead> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/241112_Modelithics_COMPLETE_3D_Library_ADS-RFPro_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=10072&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F241112_Modelithics_COMPLETE_3D_Library_ADS-RFPro_Final.pdf&amp;littype=10" target="_blank">Announcing the Launch of the NEW Modelithics COMPLETE+3D Library for Keysight Advanced Design System &amp; RFPro</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 11/12/2024 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/240925_Modelithics_COMPLETE_Library_v24.5_ADS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=10058&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F240925_Modelithics_COMPLETE_Library_v24.5_ADS.pdf&amp;littype=10" target="_blank">Now Available: Modelithics COMPLETE Library v24.5 for Keysight Advanced Design System</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 9/26/2024 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/240507_Modelithics_COMPLETE_Library_Keysight_ADS_24.1.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=10030&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F240507_Modelithics_COMPLETE_Library_Keysight_ADS_24.1.pdf&amp;littype=10" target="_blank">Announcing the Release of the Modelithics COMPLETE Library v24.1 for Keysight Technologies’ Advanced Design System</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 5/7/2024 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/240222_Modelithics_and_Johanson_Expand_Partnership_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=10020&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F240222_Modelithics_and_Johanson_Expand_Partnership_Final.pdf&amp;littype=10" target="_blank">Modelithics and Johanson Technology Expand Partnership to Develop New Microwave Global Models</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 2/22/2024 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/230907_Modelithics_COMPLETE_Library_v23.5_KeysightADS_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1958&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F230907_Modelithics_COMPLETE_Library_v23.5_KeysightADS_Final.pdf&amp;littype=10" target="_blank">Announcing the Release of the Modelithics&#174; COMPLETE Library v23.5 for Keysight Technologies’ PathWave Advanced Design System</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 9/7/2023 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/230413_Modelithics_COMPLETE_v23.1_Keysight_ADS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1927&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F230413_Modelithics_COMPLETE_v23.1_Keysight_ADS.pdf&amp;littype=10" target="_blank">Modelithics&#174; Releases the COMPLETE Library v23.1 for Keysight Technologies’ PathWave Advanced Design System</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 4/13/2023 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/221024_ModelithicsCOMPLETE_Library_ADS_v22.5_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1894&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F221024_ModelithicsCOMPLETE_Library_ADS_v22.5_Final.pdf&amp;littype=10" target="_blank">Modelithics Releases the COMPLETE Library v22.5 for Keysight Technologies’ PathWave Advanced Design System</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 10/24/2022 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/220419_Modelithics_COMPLETE_Library_v22.1_ADS_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1865&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F220419_Modelithics_COMPLETE_Library_v22.1_ADS_Final.pdf&amp;littype=10" target="_blank">Modelithics Releases the COMPLETE Library v22.1 for Keysight ADS</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 4/20/2022 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/210908_Modelithics_COMPLETE_ADS_v21.5_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1797&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F210908_Modelithics_COMPLETE_ADS_v21.5_Final.pdf&amp;littype=10" target="_blank">Modelithics&#174; Releases the COMPLETE Library™ v21.5 for Keysight Technologies’ PathWave Advanced Design System</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 9/8/2021 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/210308_COMPLETE_ADS_v21.0_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1763&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F210308_COMPLETE_ADS_v21.0_Final.pdf&amp;littype=10" target="_blank">Modelithics&#174; Releases the COMPLETE Library™ v21.0 for Keysight Technologies’ PathWave Advanced Design System</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 3/8/2021 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/20.09.09_COMPLETE_ADS_v20.5_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1719&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F20.09.09_COMPLETE_ADS_v20.5_Final.pdf&amp;littype=10" target="_blank">Modelithics&#174; Releases the COMPLETE Library™ v20.5 for Keysight Technologies’ PathWave Advanced Design System</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 9/9/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/200311_COMPLETE_ADS_v20.0_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1674&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2F200311_COMPLETE_ADS_v20.0_Final.pdf&amp;littype=10" target="_blank">Modelithics&#174; Releases the COMPLETE Library™ v20.0 for Keysight Technologies’ PathWave Advanced Design System</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 3/11/2020 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/Update_4_MDLX_19.5_ADS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1659&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2FUpdate_4_MDLX_19.5_ADS.pdf&amp;littype=10" target="_blank">Update 4 of the Modelithics&#174; COMPLETE Library v19.5 for Keysight ADS is now available.</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 12/5/2019 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/PR_ModelithicsCOMPLETEv19.5_ADS.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1618&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2FPR_ModelithicsCOMPLETEv19.5_ADS.pdf&amp;littype=10" target="_blank">Modelithics&#174; Launches the COMPLETE Library™ v19.5 for Keysight Technologies’ PathWave Advanced Design System</a> </td> <td width="40%"> </td> <td width="14%"> 9/3/2019 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/PR_ModelithicsCOMPLETEv19p0_ADS_021219.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1578&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2FPR_ModelithicsCOMPLETEv19p0_ADS_021219.pdf&amp;littype=10" target="_blank">Modelithics Releases the COMPLETE Library v19.0 for Keysight Advanced Design System with 52 New Models</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 2/12/2019 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/PR_ModelithicsV18p0_ADS_040218.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1499&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2FPR_ModelithicsV18p0_ADS_040218.pdf&amp;littype=10" target="_blank">Modelithics&#174; COMPLETE Library and NEW mmWave &amp; 5G Library Released for Keysight Technologies’ Advanced Design System</a> </td> <td width="40%"> </td> <td width="14%"> 4/2/2018 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/ModelithicsLibraryV17_Eblast_web.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1450&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2FModelithicsLibraryV17_Eblast_web.pdf&amp;littype=10" target="_blank">Eblast : New Modelithics COMPLETE Library Release v17.0 for Keysight Technologies&#39; Advanced Design System </a> </td> <td width="40%"> </td> <td width="14%"> 2/16/2017 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/PR_ModelithicsV17p0_ADS_170215.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1445&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2FPR_ModelithicsV17p0_ADS_170215.pdf&amp;littype=10" target="_blank"> New Modelithics COMPLETE Library Release v17.0 for Keysight Technologies’ Advanced Design System Represents over 15,000 Components</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 2/15/2017 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/PtoDEmail.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=381&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2FPtoDEmail.pdf&amp;littype=10" target="_blank">Take A Look at *X-Parameters with us </a> </td> <td width="40%"> </td> <td width="14%"> 3/6/2013 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/Modelithics_XPars_Gensys_V8_3_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=367&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2FModelithics_XPars_Gensys_V8_3_Final.pdf&amp;littype=10" target="_blank">Modelithics Expands *X-Parameter Services and Releases Significant Update to Modelithics COMPLETE Library for Agilent Genesys </a> </td> <td width="40%"> </td> <td width="14%"> 3/12/2012 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/PressRelease/Xparameter_PR.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=339&amp;returnUrl=%2FFreeDownloads%2FPressRelease%2FXparameter_PR.pdf&amp;littype=10" target="_blank">Modelithics Takes Circuit Design Success to a New Level with the Introduction of *X-Parameter Modeling Services </a> </td> <td width="40%"> </td> <td width="14%"> 3/15/2011 </td> </tr> </tbody> </table> </div> <div id="blogs" class="tab-pane"> <!-- Get Tabs--> <h4 class="HeadingTitleMVP">Blogs</h4> <table class="table display"> <thead> <tr> <th width="3%"> &nbsp; </th> <th width="42%"> Title </th> <th width="40%"> Author </th> <th width="14%"> Date </th> </tr> </thead> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/Blogs/Modelithics_Model_Rap_October2024_Final.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=10049&amp;returnUrl=%2FFreeDownloads%2FBlogs%2FModelithics_Model_Rap_October2024_Final.pdf&amp;littype=24" target="_blank">Push Higher Frequencies with Lumped-Element Filters</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 10/24/2024 </td> </tr> </tbody> <tbody> <tr> <td width="3%"> <a href=/FreeDownloads/Blogs/Modelithics_ModelRap_EMCircuit_Co-Sim_January2022_update.pdf target="blank"><img src="/Images/DownloadIcon/pdf.jpg" width="25" height="25" /></a> </td> <td width="42%"> <a href="/account/dloadtrackerfree?dtype=13&amp;lit=1845&amp;returnUrl=%2FFreeDownloads%2FBlogs%2FModelithics_ModelRap_EMCircuit_Co-Sim_January2022_update.pdf&amp;littype=24" target="_blank">EM/Circuit Co-Simulation Made Easy and Accurate with Keysight RFPro and Modelithics Models</a> </td> <td width="40%"> Modelithics, Inc. </td> <td width="14%"> 1/17/2022 </td> </tr> </tbody> </table> </div> </div><!-- /.tab-content --> </div><!-- /.tabbable --> <div> <p class="small"> *X-parameters is a trademark and registered trademark of Keysight Technologies in the US, EU, JP, and elsewhere. The X-parameters format and underlying equations are open and documented. For more information, visit <a href="http://www.Keysight.com/find/eesof-x-parameters-info" target="_blank">Keysight X-Parameters Information </a> </p> </div> <script> // Create RunTime IFrame so that it doesn't block the load event function createMaturityScheduleframe() { var i = document.createElement("iframe"); i.src = "../iFramePage.aspx"; i.frameBorder = "0"; i.scrolling = "auto"; i.style.height = "500px"; i.id = "FrmGeneral"; i.name = "FrmDetail"; document.getElementById("DIV_THAT_CONTAINS_IFRAME").appendChild(i); }; </script> <script> // $(document).ready(function () { // $('table.display').DataTable({ // paging: false, // info: false, // ordering: false, // "aLengthMenu": [[10, 20, 30, -1], [10, 20, 30, "All"]], // "dom": '<"top"i><"bottom"><"clear">' // }); //}); $(document).ready(function () { $('a[data-toggle="tab"]').on('shown.bs.tab', function (e) { $.fn.dataTable.tables({ visible: true, api: true }).columns.adjust(); }); $('table.table').DataTable({ scrollY: 500, scrollCollapse: true, paging: false }); // Apply a search to the second table for the demo $('#myTable2').DataTable().search('New York').draw(); }); </script> <script> function format(dataSource) { var html = '<table cellpadding="5" cellspacing="0" border="0" style="padding-left:50px;">'; for (var key in dataSource) { html += '<tr>' + '<td width="20%">' + key + '</td>' + '<td width="80%">' + dataSource[key] + '</td>' + '</tr>'; } return html += '</table>'; } $(function () { if ($.fn.dataTable.isDataTable('table.display')) { table = $('table.display').DataTable(); } else { table = $('#table.display').DataTable({ paging: true, "dom": 'C<"clear">' }); } // Event listener for opening and closing details $('table.display').on('click', 'td.details-control', function () { var tr = $(this).closest('tr'); var row = table.row(tr); if (row.child.isShown()) { // This row is already open - close it row.child.hide(); tr.removeClass('shown'); } else { // Open this row var dsc = String(tr.data('key-6')).replace(/%20%/g, " "); var dtype = String(tr.data('key-8')).replace(/%20%/g, " "); var ads2 = String(tr.data('key-3')).replace(/%20%/g, " "); var mwo2 = String(tr.data('key-5')).replace(/%20%/g, " "); var genesys2 = String(tr.data('key-10')).replace(/%20%/g, " "); var hfss2 = String(tr.data('key-11')).replace(/%20%/g, " "); var sonnet2 = String(tr.data('key-12')).replace(/%20%/g, " "); var GAN2 = tr.data('key-14'); var GAN3 = '<a href="/Requests/Exemplar?company=ADS">' + ads2 + '</a>'; var GANAWR = '<a href="/Requests/Exemplar?company=%20National%20Instruments%20AWR">' + mwo2 + '</a>' if (GAN2 == 11) GAN3 = '<a href="/Requests/QorvoGan">' + ads2 + '</a>'; if (GAN2 == 11) GANAWR = '<a href="/Requests/QorvoGan">' + ads2 + '</a>'; row.child(format({ 'Model Description:': dsc, 'Model Device Type:': dtype, 'Available Modelithics Libraries:': tr.data('key-1'), 'Available Simulators:': tr.data('key-2'), 'Keysight ADS Model Download:': GAN3 //'NI/MWO Model Download:': GANAWR //'Keysight Genesys Model Download:': '<a href="/Requests/Exemplar?company=Genesys">' + genesys2 + '</a>' //'HFSS Model Request:': '<a href="/Requests/Exemplar?company=HFSS">' + hfss2 + '</a>' //'Sonnet Model Request:': '<a href="/Requests/Exemplar?company=Sonnet">' + sonnet2 + '</a>' //'Sparameter Download Link:': tr.data('key-9'), //'Component Image:': '<img src="' + tr.data('key-7') + '" width="200px" height="100px">' })).show(); tr.addClass('shown'); } }); }); </script> <script> $(function () { // Function to activate the tab function activateTab() { var activeTab = $('[href=' + window.location.hash.replace('/', '') + ']'); activeTab && activeTab.tab('show'); } // Trigger when the page loads activateTab(); // Trigger when the hash changes (forward / back) $(window).on('hashchange', function () { activateTab(); }); // Change hash when a tab changes // Handle shown event using delegation $(document).on('shown.tab.data-api', '[data-toggle="tab"], [data-toggle="pill"]', function () { window.location.hash = $(this).attr('href').replace('#', ''); }); }); </script> <hr /> <div class="jumbotron footer2"> <div class="row" id="panel-footer"> <div class="col-md-4"> <ul> <li class="footer2"><a href="/home/privacy">Privacy Statement</a></li> <li><a href="/home/terms">Terms of use</a></li> </ul> <p class="small">&copy; 2024 - Modelithics</p> </div> <!-- End About Us MD4 --> <div class="col-md-5 footer3"> <strong><i>Excellence in Modeling Since 2001!</i></strong> <br /> <h5 class="small">We value your feedback about our products and services</h5> <a class="btn btn-default footer3" href="https://www.surveymonkey.com/r/MDLXWebFB" target="_blank">Website feedback and suggestions &raquo;</a> </div><!-- End Contact Sales MD4 --> <div class="col-md-3"> <h4>Connect with us</h4> <p> <a href="https://www.facebook.com/Modelithics" target="_blank"><img src="/Images/SocialMedia/facebook.png" class="img-thumbnail img-responsive" width="32" height="32"></a> <a href="https://www.linkedin.com/company/modelithics-inc-" target="_blank"><img src="/Images/SocialMedia/linkedin.png" class="img-thumbnail img-responsive" width="32" height="32"></a> <a href="https://www.youtube.com/channel/UCqza4urCNHXRtnyO-K0w44g" target="_blank"><img src="/Images/SocialMedia/YouTube.png" class="img-thumbnail img-responsive" width="32" height="32"></a> </p> </div> <!--End Connect with us MD4 --> </div> </div> <!--End Jumbotron--> <input id="searchBox" type="hidden" placeholder="search" /> </div> <!--End Body Content--> <!--Page Related Scripts--> <script src="/bundles/bootstrap?v=oGiR7sOX6BKMRORe0vmnBki0IEjhw5-XzIUtfAza53Q1"></script> <!--Update how Registration trademark is displayed--> <script> $("p,h1,h2,h3,h4,li,a").each(function () { $(this).html($(this).html().replace(/&reg;/gi, '<sup>&reg;</sup>').replace(/®/gi, '<sup>&reg; </sup>')); }); </script> <script src="https://cdn.jsdelivr.net/npm/cookieconsent@3/build/cookieconsent.min.js" data-cfasync="false"></script> <script> window.cookieconsent.initialise({ "palette": { "popup": { "background": "#edeff5", "text": "#838391" }, "button": { "background": "#4b81e8" } }, "type": "opt-out", "content": { "message": "We use cookies to analyze our traffic. We also share information about your use of our site with our partners. For more information on how we use cookies, please visit our Privacy Statement. By using our website, you acknowledge this notice of our cookie practices.", "href": "https://www.modelithics.com/home/privacy" } }); </script> </body> </html>

Pages: 1 2 3 4 5 6 7 8 9 10