Technical Resources

The following technical documentation is authored to provide user application support for the SynMatrix application.

Sep 2020 Microwave Journal Technical Feature

With emerging fifth generation (5G) cellular communication systems, the demand for passive components is driving the growth of massive MIMO and carrier aggregation technologies. With this growth, microwave filters are faced with a number of technical challenges including miniature sizing with a demand for better electromagnetic performance such as lower passband loss, sharper skirts and higher isolation without increasing manufacturing costs. Ceramic waveguide filter design using different dielectric materials is well researched.

Neural network of calibrated coarse model and application to substrate integrated waveguide filter design

Another research paper uses the SynMatrix Design Platform. Abstract: In this article, we propose a novel neural network of calibrated coarse model, which can obtain the optimal filter response with as little training data as possible to synthesize the entire substrate integrated waveguide (SIW) filter.

SynMatrix Product Sheet
Sales Brochures

SynMatrix Product Brochure

The SynMatrix Test and Measurement Tuning Module

It is with great anticipation and excitement that we announce our latest major feature, the Test and Measurement Tuning Module.

Webinar: Designing 5G and mmWave Components Using the SynMatrix AI Design Platform

We had the opportunity to work with Ansys who hosted the webinar, "Designing 5G and mmWave Components Using the SynMatrix AI Design Platform". Here is an excerpt of the webinar description:

"Explore the microwave filter design process for mmWave and 5G band requirements in this webinar. Starting with a set of specification requirements, we will take you step-by-step to a fully tuned filter design. SynMatrix, a RF passive component design platform, will be used to design mm-Wave and 5G components. This design platform combines proprietary machine learning algorithms with decades of experience i...

May 2020 Microwave Journal Product Feature

We were featured in Microwave Journal's May 2020 issue. Check us out here in the Product Feature.

How to Design 5G and mm-Wave Filters Using AI-Optimized Tuning

We recently authored a blog post, 'How to Design 5G and mm-Wave Filters Using AI-Optimized Tuning' that was hosted on the Ansys blog site.

AI-tuning with Space Mapping Video Tutorials

Your quest to design 5G and mmWave components continues with the AI-tuning Space Mapping feature.

A High-Selectivity D-Band Mixed-Mode Filter Based on the Coupled Overmode Cavities

The following publication has been approved for issue on the IEEE Transactions on Microwave Theory and Techniques.

AI-tuning Video Tutorials

This video introduces one of the few platforms in the world capable of using AI-based tuning to automatically tune RF filters. The following is a video tutorial series and begins with Part 1 of 2. Before beginning with this tutorial viewers should watch the filter specification analysis video series. These videos review the synthesis process that's required before a designer can start tuning their filters.

Filter Specification Analysis Video Tutorials

The Filter Specification Analysis Tutorial: 'The Synthesis Matrix'. This tutorial video series will show you how to synthesize the matrix using a cloud-based software tool called, SynMatrix.

Support Feature 7: Stray Coupling Analysis

Stray Coupling is unwanted coupling effects, leaking energy between non-adjacent resonators, which may cause either the unbalanced notch level or extra unwanted transmission zeros.