Frequency-Domain Upper Bounds for Signals on a Multiconductor Transmission Line behind an Aperture

This paper develops a technique for bounding the maximum voltages and currents at terminations of a multiconductor transmission line (MTL) located behind an aperture-perforated conducting screen excited by an electromagnetic field in the frequency domain. The electromagnetic field is coupled through...

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Hauptverfasser:	Davis,William A, Sistanizadeh,Mohammad K
Format:	Report
Sprache:	eng
Schlagworte:	APERTURES COUPLING(INTERACTION) Cutoff frequency Electrical and Electronic Equipment ELECTROMAGNETIC FIELDS ENERGY TRANSFER EXTERNAL FREQUENCY Frequency domain GEOMETRY INTERNAL MTL(Multiconductor Transmission Lines) MULTICONDUCTOR CABLES Radiofrequency Wave Propagation SOURCES TRANSMISSION LINES TRAVELING WAVES
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creator	Davis,William A Sistanizadeh,Mohammad K
description	This paper develops a technique for bounding the maximum voltages and currents at terminations of a multiconductor transmission line (MTL) located behind an aperture-perforated conducting screen excited by an electromagnetic field in the frequency domain. The electromagnetic field is coupled through a small aperture as the excitation of a multiconductor transmission line behind the aperture. A model is presented in terms of external and internal sources which in turn create traveling waves on the multiconductor transmission line. These traveling waves transfer energy to the terminations. The energy at a termination is translated into voltages and currents from which the upper bounds are determined. These upper bounds are obtained using vector norms and associated matrix norms. The formulation is presented in the frequency domain to obtain useful upper bounds for analysis of multiconductor transmission line geometries with aperture excitation. (Author)
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The electromagnetic field is coupled through a small aperture as the excitation of a multiconductor transmission line behind the aperture. A model is presented in terms of external and internal sources which in turn create traveling waves on the multiconductor transmission line. These traveling waves transfer energy to the terminations. The energy at a termination is translated into voltages and currents from which the upper bounds are determined. These upper bounds are obtained using vector norms and associated matrix norms. The formulation is presented in the frequency domain to obtain useful upper bounds for analysis of multiconductor transmission line geometries with aperture excitation. 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The electromagnetic field is coupled through a small aperture as the excitation of a multiconductor transmission line behind the aperture. A model is presented in terms of external and internal sources which in turn create traveling waves on the multiconductor transmission line. These traveling waves transfer energy to the terminations. The energy at a termination is translated into voltages and currents from which the upper bounds are determined. These upper bounds are obtained using vector norms and associated matrix norms. The formulation is presented in the frequency domain to obtain useful upper bounds for analysis of multiconductor transmission line geometries with aperture excitation. 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The electromagnetic field is coupled through a small aperture as the excitation of a multiconductor transmission line behind the aperture. A model is presented in terms of external and internal sources which in turn create traveling waves on the multiconductor transmission line. These traveling waves transfer energy to the terminations. The energy at a termination is translated into voltages and currents from which the upper bounds are determined. These upper bounds are obtained using vector norms and associated matrix norms. The formulation is presented in the frequency domain to obtain useful upper bounds for analysis of multiconductor transmission line geometries with aperture excitation. (Author)</abstract><oa>free_for_read</oa></addata></record>
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subjects	APERTURES COUPLING(INTERACTION) Cutoff frequency Electrical and Electronic Equipment ELECTROMAGNETIC FIELDS ENERGY TRANSFER EXTERNAL FREQUENCY Frequency domain GEOMETRY INTERNAL MTL(Multiconductor Transmission Lines) MULTICONDUCTOR CABLES Radiofrequency Wave Propagation SOURCES TRANSMISSION LINES TRAVELING WAVES
title	Frequency-Domain Upper Bounds for Signals on a Multiconductor Transmission Line behind an Aperture
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