Result Details
Time-Domain Finite Elements for Virtual Testing of Electromagnetic Compatibility
Cigánek Jan, Ing., Ph.D., UREL (FEEC)
Kadlec Petr, doc. Ing., Ph.D., UREL (FEEC)
Raida Zbyněk, prof. Dr. Ing., UREL (FEEC)
Wiktor Michal, Dr. Ing.
Sarto Maria Sabrina
Greco Sandra
The paper presents a time-domain finite-element solver developed for simulations related to solving electromagnetic compatibility issues. The software is applied as a module integrated into a computational framework developed within a FP7 European project High Intensity Radiated Field – Synthetic Environment (HIRF SE) able to simulate a large class of problems. In the paper, the mathematical formulation is briefly presented, and special emphasis is put on the user point of view on the simulation tool-chain. The functionality is demonstrated on the computation of shielding effectiveness of two composite materials. Results are validated through experimental measurements and agreement is confirmed by automatic feature selective algorithms.
Amelet-HDF, electromagnetic compatibility (EMC), high intensity radiated field synthetic environment (HIRF SE), shielding effectiveness (SE), time domain finite elements (TDFE), composite materials.
@article{BUT99152,
author="Vladimír {Šeděnka} and Jan {Cigánek} and Petr {Kadlec} and Zbyněk {Raida} and Michal {Wiktor} and Maria Sabrina {Sarto} and Sandra {Greco}",
title="Time-Domain Finite Elements for Virtual Testing of Electromagnetic Compatibility",
journal="Radioengineering",
year="2013",
volume="22",
number="1",
pages="309--317",
issn="1210-2512"
}