Conversion Matrix Method of Moments for Time-Varying Electromagnetic Analysis

A conversion matrix approach to solving network problems involving time-varying circuit components is applied to the method of moments for electromagnetic scattering analysis. Detailed formulations of this technique's application to the scattering analysis of structures loaded with time-varying...

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Veröffentlicht in:	arXiv.org 2021-03
Hauptverfasser:	Bass, S F, Palmer, A M, Schab, K R, Kerby-Patel, K C, Ruyle, J E
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Sprache:	eng
Schlagworte:	Circuits Computational efficiency Computer Science - Systems and Control Computing costs Conversion Cost analysis Electromagnetic scattering Method of moments
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creator	Bass, S F Palmer, A M Schab, K R Kerby-Patel, K C Ruyle, J E
description	A conversion matrix approach to solving network problems involving time-varying circuit components is applied to the method of moments for electromagnetic scattering analysis. Detailed formulations of this technique's application to the scattering analysis of structures loaded with time-varying circuit networks or constructed from general time-varying media are presented. The computational cost of the method is discussed, along with an analysis of compression techniques capable of significantly reducing computational cost for partially loaded systems. Several numerical examples demonstrate the capabilities of the technique along with its validation against conventional methods of modeling time-varying electromagnetic systems, such as finite difference time domain and transient circuit co-simulation.
doi_str_mv	10.48550/arxiv.2103.06135
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subjects	Circuits Computational efficiency Computer Science - Systems and Control Computing costs Conversion Cost analysis Electromagnetic scattering Method of moments
title	Conversion Matrix Method of Moments for Time-Varying Electromagnetic Analysis
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