Cadence is a leading provider of electronic design automation (EDA) and semiconductor intellectual property (IP). Our custom/analog tools help engineers design the transistors, standard cells, and IP blocks that make up systems on chip (SoCs). Our digital tools automate the design and verification of giga-scale, giga-hertz SoCs at the latest semiconductor processing nodes. Our IC packaging and PCB tools permit the design of complete boards and subsystems. Cadence also offers a growing portfolio of design IP and verification IP for memories, interface protocols, analog/mixed-signal components, and specialized processors. And at the systems level, Cadence offers an integrated suite of hardware/ software co-development platforms. In short, Cadence’s innovative technologies are essential to building great products that transform lives.
Start your next design with the most accurate and well documented RF, Microwave and mm-Wave Simulation models in the industry! Modelithics passive and active, measurement-based simulation models integrate seamlessly with the latest electronic design automation (EDA) simulation tools, including Keysight Technologies’ Advanced Design System (ADS), NI AWR Design Environment/Microwave Office™, Keysight Technologies’ Genesys, ANSYS® HFSS™ and Sonnet®.
Modelithics high accuracy models capture parasitic effects and reliably predict how component performance changes with various scalable input parameters over a specified frequency range. The scaling and optimization features provide advanced analysis capability and allow RF circuit designers to quickly meet design goals. Visit the products page for more information on the advantages of Modelithics models. Our goal is to help you achieve first pass design success!
Click free trial image above to request a FREE trial of Modelithics models, compatible with this MVP’s EDA tool.
|More Info||Vendor||Part Number||Model||Body Style||Component||Max Freq (GHz)||Part Values||Features|
|Coilcraft||0603CS||IND-CLC-0603-101-S||0603||Inductor||20||1.6 - 390 nH||SS, PS, VS|
|ATC||600S||CAP-ATC-0603-101-S||0603||Capacitor||20||0.1 pF-100 pF||SS, PS, VS, OS|
|ATC||800B||CAP-ATC-800B-201-S||Case B||Capacitor||20||0.1 - 1000pF||SS, PS, OS, VS|
|Presidio||BB0502X7R104M||CAP-PRS-0502-001-S||0502||Capacitor||50||DC Block||BB, SS|
|MuRata||GRM2165C2A||CAP-MUR-0805-001-S||0805||Capacitor||9||10-470 pF||SS, VS|
|Toko||LL2012-FHL||IND-TKO-0805-002-S||0805||Inductor||9||33-680 nH||SS, VS|
|Nitronex||NPT1012||HMT-NIT-NPT1012-001-S||Package||GaN HEMT||4||NL, TS, LP|
|KOA||RK73x1J||RES-KOA-0603-101-S||0603||Resistor||10||1 – 1M Ohms||SS, PS, VS|
|Note #||Title||Date||Example Files|
|39||Accurate Co-Simulation Of Surface-Mount Capacitors In Shunt Configurations||1/1/2014|
|36||Effects Of Over-Molding On Surface Mount Capacitors And Inductors||1/1/2014|
|35||Proximity Effects In Closely-Spaced Surface Mount Passive Components||1/1/2014|
|26||Capacitor PI Network For Impedance Matching||1/1/2014|
|22||Part Value Tolerance In Surface Mount Components||1/1/2014|
|21||Filter Design Using 0201 Surface Mount LC'S||1/1/2014|
|20||Lumped Element Band-Pass Filter Design And Optimization||1/1/2014|
|19||Lumped Element High-Pass Filter Design And Optimization||1/1/2014|
|18||Lumped Element Low-Pass Filter Design And Optimization||1/1/2014|
|17||Lumped Element Filter Design And Optimization||1/1/2014|
|15||Reducing Part Count In Low-Pass Filter Designs||1/1/2014|
|14||Capacitor Tee Network Characteristics||1/1/2014|