Electromagnetic Compatibility (EMC) is an important consideration in a wide range of applications, and an increasing number of universities have set up courses and research groups for its study. CST develops electromagnetic simulation solutions that are widely used in academia, research and industry, and has long supported universities through discounted licenses and co-operation programs. In order to provide the EMC engineers of the future with the tools and experience they need, CST is now expanding this program to include university seats for its latest product, CST EMC STUDIO.
CST EMC STUDIO contains a toolkit of proven solver technologies for the study of EMC effects, with general purpose 3D modules for time and frequency domain simulation alongside more specialized solvers. In particular, it includes the 3D transmission line matrix (TLM) method solver, which implements technology that simplifies numerical EMC analysis, such as compact models and octree meshing. The bidirectional cable/field simulation enables more realistic modeling of noise propagation and radiation over cables. True transient EM/circuit helps analyze the effect of nonlinear circuitry on EMC performance. For analyzing printed electronics, the powerful import functionality and the rule checker are useful.
The CST EMC STUDIO can be used to help teach and study are electrostatic discharge (ESD), radiated and conducted emissions, EMC performance of printed electronics, and susceptibility to environmental electromagnetic effects (E3) such as lightning strikes, high-intensity radiated fields (HIRF) and electromagnetic pulses (EMP).
