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Google Training Session

EMA3D: Easier Full-Device Modeling for Electromagnetic Compatibility (EMC) and Discharges

 

Do you think full-device electromagnetic modeling of products is impossible?

The team behind EMA3D set out decades ago to solve this problem.

This training session in EMA3D Cable and EMA3D Charge will describe the basic workflows and teach new users how to get up to speed in these tools quickly.

Training Sessions

Live Session
March 22, 2022 1:00pm-3:00pm CT
March 22nd & 23rd

In part 1 of this training we will demonstrate EMA3D’s forgiving mesh technology that can utilize mechanical design files to quickly model enclosures and add critical details such as seams and apertures. Next, we will train users on the methods in EMA3D Cable to create complex cable harnesses quickly and easily that are complete with shields, branches, and connectors. Finally, the Part 1 training will conclude with a demonstration of the ability of EMA3D Cable to quickly process simulation data to create results that can be easily compared to EMC limit curves. 

 

In Part 2 we will demonstrate how EMA3D Cable can import fields from printed circuit board and antenna simulations in Ansys SIwave and Ansys HFSS. The fields will drive enclosures with cables and seams that are quickly specified based on mechanical drawing import. Next, we will introduce EMA3D Charge, which has a unique ability to simulate non-contact electrostatic discharge (ESD) arcs in air using co-simulation of the electromagnetic, fluid, and air ionization equations simultaneously.

 

Speaker: Timothy McDonald

Live Session
March 23, 2022 1:00pm-3:00pm CT
Part 2 Session

We will demonstrate how EMA3D Cable can import fields from printed circuit board and antenna simulations in Ansys SIwave and Ansys HFSS. The fields will drive enclosures with cables and seams that are quickly specified based on mechanical drawing import. Next, we will introduce EMA3D Charge, which has a unique ability to simulate non-contact electrostatic discharge (ESD) arcs in air using co-simulation of the electromagnetic, fluid, and air ionization equations simultaneously.

 

Speaker: Timothy McDonald

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