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 general framework developed within a FP7 European project High Intensity Radiated Field – Synthetic Environment (HIRF SE). The software is capable to simulate a large class of problems, including scattering in open space, giving a reasonable user interface. In the paper, the mathematical formulation is briefly presented, but 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.
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 general framework developed within a FP7 European project High Intensity Radiated Field – Synthetic Environment (HIRF SE). The software is capable to simulate a large class of problems, including scattering in open space, giving a reasonable user interface. In the paper, the mathematical formulation is briefly presented, but 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.
Time-domain finite elements for virtual testing of electromagnetic compatibility / V., Šeděnka; J., Cigánek; P., Kadlec; Z., Raida; M., Wiktor; Sarto, Maria Sabrina; Greco, Sandra. - In: RADIOENGINEERING. - ISSN 1210-2512. - STAMPA. - 1:22(2013), pp. 309-317.
Time-domain finite elements for virtual testing of electromagnetic compatibility
SARTO, Maria Sabrina;GRECO, SANDRA
2013
Abstract
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 general framework developed within a FP7 European project High Intensity Radiated Field – Synthetic Environment (HIRF SE). The software is capable to simulate a large class of problems, including scattering in open space, giving a reasonable user interface. In the paper, the mathematical formulation is briefly presented, but 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.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
