Validation of shielded cable modeling in xyce based on transmission-line theory

Salvatore Campione; Aaron J. Pung; Larry K. Warne; William L. Langston; Ting Mei; Howard G. Hudson

doi:10.2528/pierl19060311

Validation of shielded cable modeling in xyce based on transmission-line theory

Salvatore Campione
, Aaron J. Pung
, Larry K. Warne
, William L. Langston
, Ting Mei
, Howard G. Hudson

Research output: Contribution to journal › Article › peer-review

Abstract

Cables and electronic devices typically employ electromagnetic shields to prevent coupling from external radiation. The imperfect nature of these shields allows external electric and magnetic fields to induce unwanted currents and voltages on the inner conductor by penetrating into the interior regions of the cable. In this paper, we verify a circuit model tool using a previously proposed analytic model [1], by evaluating induced currents and voltages on the inner conductor of the shielded cable. Comparisons with experiments are also provided, aimed to validate the proposed circuit model. We foresee that this circuit model will enable coupling between electromagnetic and circuit simulations.

Original language	English
Pages (from-to)	51-57
Number of pages	7
Journal	Progress in Electromagnetics Research Letters
Volume	87
DOIs	https://doi.org/10.2528/pierl19060311
State	Published - 2019
Externally published	Yes

Funding

Sandia National Laboratories is a multimission laboratory managed and operated by National Technology and Engineering Solutions of Sandia, LLC, a wholly owned subsidiary of Honeywell International, Inc., for the U.S. Department of Energy’s National Nuclear Security Administration under contract DE-NA-0003525. This paper describes objective technical results and analysis. Any subjective views or opinions that might be expressed in the paper do not necessarily represent the views of the U.S. Department of Energy or the United States Government.

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abstract = "Cables and electronic devices typically employ electromagnetic shields to prevent coupling from external radiation. The imperfect nature of these shields allows external electric and magnetic fields to induce unwanted currents and voltages on the inner conductor by penetrating into the interior regions of the cable. In this paper, we verify a circuit model tool using a previously proposed analytic model [1], by evaluating induced currents and voltages on the inner conductor of the shielded cable. Comparisons with experiments are also provided, aimed to validate the proposed circuit model. We foresee that this circuit model will enable coupling between electromagnetic and circuit simulations.",

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AU - Campione, Salvatore

AU - Pung, Aaron J.

AU - Warne, Larry K.

AU - Langston, William L.

AU - Mei, Ting

AU - Hudson, Howard G.

PY - 2019

Y1 - 2019

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AB - Cables and electronic devices typically employ electromagnetic shields to prevent coupling from external radiation. The imperfect nature of these shields allows external electric and magnetic fields to induce unwanted currents and voltages on the inner conductor by penetrating into the interior regions of the cable. In this paper, we verify a circuit model tool using a previously proposed analytic model [1], by evaluating induced currents and voltages on the inner conductor of the shielded cable. Comparisons with experiments are also provided, aimed to validate the proposed circuit model. We foresee that this circuit model will enable coupling between electromagnetic and circuit simulations.

UR - https://www.scopus.com/pages/publications/85073375945

U2 - 10.2528/pierl19060311

DO - 10.2528/pierl19060311

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JO - Progress in Electromagnetics Research Letters

JF - Progress in Electromagnetics Research Letters

ER -

Validation of shielded cable modeling in xyce based on transmission-line theory

Abstract

Funding

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