Detail publikace
Pulsed-field EMI Susceptibility Analysis of Microelectronic Circuits – a Full Time-Domain Methodology
DE HOOP, A. BLOK, H. LAGER, I. ŠTUMPF, M. VANDENBOSCH, G.
Originální název
Pulsed-field EMI Susceptibility Analysis of Microelectronic Circuits – a Full Time-Domain Methodology
Anglický název
Pulsed-field EMI Susceptibility Analysis of Microelectronic Circuits – a Full Time-Domain Methodology
Jazyk
en
Originální abstrakt
A full time-domain methodology is developed for analyzing the susceptibility of microwave electronic circuits to pulsed-field electromagnetic (EM) disturbances. The method is based on the consideration that micro-electronic circuits in their EM radiation behavior can be conceived as to consist of open (parallel-plate) resonators that are mutually coupled through their connecting feeds and are susceptible to disturbing incident fields through their apertures. In this respect, they are similar in behavior to the well-known ultra wideband patch antennas. The key issue to the method is to characterize each of these resonators by its natural modes of oscillation. Theoretically, these natural oscillations are adequately modelled through the time Laplace transform domain counterparts of the electromagnetic reciprocity theorem of the time-convolution type.
Anglický abstrakt
A full time-domain methodology is developed for analyzing the susceptibility of microwave electronic circuits to pulsed-field electromagnetic (EM) disturbances. The method is based on the consideration that micro-electronic circuits in their EM radiation behavior can be conceived as to consist of open (parallel-plate) resonators that are mutually coupled through their connecting feeds and are susceptible to disturbing incident fields through their apertures. In this respect, they are similar in behavior to the well-known ultra wideband patch antennas. The key issue to the method is to characterize each of these resonators by its natural modes of oscillation. Theoretically, these natural oscillations are adequately modelled through the time Laplace transform domain counterparts of the electromagnetic reciprocity theorem of the time-convolution type.
Dokumenty
BibTex
@inproceedings{BUT95353,
author="Adrianus Teunis {De Hoop} and Hans {Blok} and Ioan E. {Lager} and Martin {Štumpf} and Guy A. E. {Vandenbosch}",
title="Pulsed-field EMI Susceptibility Analysis of Microelectronic Circuits – a Full Time-Domain Methodology",
annote="A full time-domain methodology is developed for analyzing the susceptibility of microwave electronic circuits to pulsed-field electromagnetic (EM) disturbances. The method is based on the consideration that micro-electronic circuits in their EM radiation behavior can be conceived as to consist of open (parallel-plate) resonators that are mutually coupled through their connecting feeds and are susceptible to disturbing incident fields through their apertures. In this respect, they are similar in behavior to the well-known ultra wideband patch antennas. The key issue to the method is to characterize each of these resonators by its natural modes of oscillation. Theoretically, these natural oscillations are adequately modelled through the time Laplace transform domain counterparts of the electromagnetic reciprocity theorem of the time-convolution type.",
booktitle="Proceedings of European Microwave Week 2012",
chapter="95353",
howpublished="print",
year="2012",
month="november",
pages="1--3",
type="conference paper"
}