COMSOL Produces Tools to Support Microwave and RF Engineers

Tools target those working in 5G, IoT, automotive radars and satellite communications.

Tools target those working in 5G, IoT, automotive radars and satellite communications.

A Butler matrix beamforming network, designed using the Transmission Line interface and linked to the 3D model via the Electromagnetic Waves, Frequency Domain interface. The far-field radiation, electric field norm, and arithmetic phase progression on the network are shown. Image courtesy of COMSOL.

COMSOL announces the latest advances in its COMSOL Multiphysics software to support microwave and RF engineers working on 5G, IoT, automotive radars and satellite communications. With these tools, designers can model different PCB materials and study how they affect the performance of microwave and millimeter wave circuits. Several of the application examples to guide designers will be introduced at the International Microwave Symposium (IMS) 2019. 

“We are particularly excited to demonstrate how to set up and run a simulation to design and evaluate a Grounded Coplanar Waveguide (GCPW) line,” says Jiyoun Munn, technical product manager of the RF Module at COMSOL. “Connectors and low loss materials are the key components across all electronic devices and systems. Their reliability is critical in circuits that transmit and receive information.”

The use of simulation to achieve low insertion loss and reliable circuit performance in a design, requires choosing accurate material properties such as relative dielectric constant and loss tangent, while also considering surface roughness effects in the computer model.

Designing components ready for 5G, IoT, automotive radars and satellite communications will require multiphysics modeling. Using COMSOL Multiphysics microwave and RF designers can couple electromagnetic simulations with heat transfer, structural mechanics, fluid flow, and other physical phenomena, allowing them to represent coupled physics effects as they would occur in the real world. 

Sources: Press materials received from the company and additional information gleaned from the company’s website.

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