The prediction of radiation levels from printed circuit boards by means of the finite difference time domain method

CJ Railton; KM Richardson; JP McGeehan; KF Elder

The prediction of radiation levels from printed circuit boards by means of the finite difference time domain method

CJ Railton, KM Richardson, JP McGeehan, KF Elder

Research output: Chapter in Book/Report/Conference proceeding › Chapter in a book

3 Citations (Scopus)

Abstract

The necessity for the control and minimisation of unintentional electromagnetic emissions from electrical systems has long been appreciated and much skilled effort is spent on EMI suppression. Due to the complexity of the problem, however, very little in the way of CAD tools is available to help the designer. A technique is described, based on the finite difference time domain technique, whereby the radiation levels from digital circuits may be predicted. The predicted results are compared to measurements for a trial configuration

Original language	English
Title of host publication	International Conference on Computation in Electromagnetics, 1991
Publisher	Institution of Engineering and Technology (IET)
Pages	339 - 343
ISBN (Print)	085296529X
Publication status	Published - Nov 1991

Bibliographical note

Sponsorship: Part of this work was funded by GPT, Coventry

Other identifier: IEE Publ. No. 350

Keywords

Finite Difference Time Domain (FDTD)
interference suppression
circuit analysis computing
time-domain analysis

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abstract = "The necessity for the control and minimisation of unintentional electromagnetic emissions from electrical systems has long been appreciated and much skilled effort is spent on EMI suppression. Due to the complexity of the problem, however, very little in the way of CAD tools is available to help the designer. A technique is described, based on the finite difference time domain technique, whereby the radiation levels from digital circuits may be predicted. The predicted results are compared to measurements for a trial configuration",

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The prediction of radiation levels from printed circuit boards by means of the finite difference time domain method. / Railton, CJ; Richardson, KM; McGeehan, JP; Elder, KF.

International Conference on Computation in Electromagnetics, 1991. Institution of Engineering and Technology (IET), 1991. p. 339 - 343.

Research output: Chapter in Book/Report/Conference proceeding › Chapter in a book

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T1 - The prediction of radiation levels from printed circuit boards by means of the finite difference time domain method

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AU - Richardson, KM

AU - McGeehan, JP

AU - Elder, KF

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AB - The necessity for the control and minimisation of unintentional electromagnetic emissions from electrical systems has long been appreciated and much skilled effort is spent on EMI suppression. Due to the complexity of the problem, however, very little in the way of CAD tools is available to help the designer. A technique is described, based on the finite difference time domain technique, whereby the radiation levels from digital circuits may be predicted. The predicted results are compared to measurements for a trial configuration

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KW - interference suppression

KW - circuit analysis computing

KW - time-domain analysis

M3 - Chapter in a book

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EP - 343

BT - International Conference on Computation in Electromagnetics, 1991

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