Publication detail

On Modeling of Excitation Ports in the Time-Domain Contour-Integral Method

ŠTUMPF, M. ŠEDĚNKA, V. KADLEC, P.

Original Title

On Modeling of Excitation Ports in the Time-Domain Contour-Integral Method

English Title

On Modeling of Excitation Ports in the Time-Domain Contour-Integral Method

Type

conference paper

Language

en

Original Abstract

This contribution reports on modeling of excitation ports in the time-domain contour integral method. In this respect, two modeling strategies are presented. The first approach is very general and allows for the incorporation of rather complex excitation mechanisms including the vertical-probe and microstrip-line feeds. The second way is computationally more efficient but its application is limited to special cases. A numerical example that validates the feeding model is given.

English abstract

This contribution reports on modeling of excitation ports in the time-domain contour integral method. In this respect, two modeling strategies are presented. The first approach is very general and allows for the incorporation of rather complex excitation mechanisms including the vertical-probe and microstrip-line feeds. The second way is computationally more efficient but its application is limited to special cases. A numerical example that validates the feeding model is given.

Keywords

electromagnetic compatibility; reciprocity theorem; time-domain contour integral method.

Released

12.10.2017

Location

Verona, Italy

ISBN

978-1-5090-4450-4

Book

Proceedings of the 2017 International Conference on Electromagnetics in Advanced Applications (ICEAA)

Edition

19th Edition

Pages from

1292

Pages to

1294

Pages count

3

URL

Documents

BibTex


@inproceedings{BUT140537,
  author="Martin {Štumpf} and Vladimír {Šeděnka} and Petr {Kadlec}",
  title="On Modeling of Excitation Ports in the Time-Domain Contour-Integral Method",
  annote="This contribution reports on modeling of excitation ports in the time-domain contour integral method. In this respect,
two modeling strategies are presented. The first approach is very general and allows for the incorporation of rather complex excitation mechanisms including the vertical-probe and microstrip-line feeds. The second way is computationally more efficient but its application is limited to special cases. A numerical example that validates the feeding model is given.",
  booktitle="Proceedings of the 2017 International Conference on Electromagnetics in Advanced Applications (ICEAA)",
  chapter="140537",
  doi="10.1109/ICEAA.2017.8065509",
  edition="19th Edition",
  howpublished="online",
  year="2017",
  month="october",
  pages="1292--1294",
  type="conference paper"
}