MODELITHICS, INC. is a leading-edge technology company providing comprehensive microwave and RF measurement services, as well as accurate, scalable measurement-based models of RF and microwave components. Over 10,000 parts are represented in Modelithics libraries, which are installed as specialized design kits in popular Electronic Design Automation (EDA) tools, such as Keysight Advanced Design System (ADS), NI AWR Microwave Office and Keysight Genesys.
Modelithics measurements capture complex characteristics across frequency. The models offer multiple scalable parameters to accurately match the designer’s application, resulting in high probability of first-pass design success, and in turn, noticeable cost savings.
Modelithics supports RF and MW designers in a broad range of industries. We support RF component and semiconductor device manufacturers by developing models for their products, making them top choices for use in new designs.
PDXpert® product lifecycle management software is simple to use, flexible to apply, and improves the accessibility and security of your design, production and support data. PDXpert PLM offers document control; bill of material (BOM) management; controlled-access data library; RoHS materials...
An indispensable collection of the industry's most advanced simulation models for passive components, transistors, diodes and more. These reliable, measurement-based models maximize the RF/MW electronic design automation (EDA) process, reduce design cycle times, and lower product development... Read more
High-accuracy, measurement-based software simulation models for RF, Microwave, and mm-wave electronic design. The CLR Library contains models of capacitors, inductors and resistors. Modelithics’ Global Models cover entire part families and are substrate-scalable, part-value scalable, and... Read more
Feature-rich measurement-based non-linear transistor models for RF/MW simulations. Modelithics NLT library models offer temperature scaling and include advanced measurements, such as load pull and noise parameters. Read more
This paper addresses two areas of improvement to microwave linear and non-linear modeling for improved board-based designs using surface mount components. The first area concerns best-practice application examples of electromagnetic (EM) analysis combined with accurate broad-band parasitic... Read more