DocumentCode
2733123
Title
Susceptibility modeling analysis of parasitics in unshielded products with long wires attached
Author
Archambrault, B. ; Berger, H. Stephen
Author_Institution
SETH Corp., Johnstown, PA, USA
fYear
1996
fDate
19-23 Aug 1996
Firstpage
459
Lastpage
464
Abstract
Numerical modeling of EMI/EMC problems has become more popular over the past few years, due to the commercial availability of modeling software and the drive to reduce product development cycle times. This paper introduces a technique for using applying numeric modeling to immunity problems. Modeling can be used to simulate the effects of radiated immunity as well as radiated emissions. Second, models eliminate the `try-it-and-see´ approach to immunity problems of guessing at the source of an immunity mechanism and experimentally trying many possible solutions until an effective remedy is found. With modeling, solutions are not considered until the central mechanism of the problem is adequately understood. Once an adequate model is developed inspection of the RF current flows at the frequencies of primary interest is particularly instructive in this regard. Then using well known electromagnetic effects (such as reciprocity), modeling can be made much simpler, and effectively extend the usefulness of existing modeling tools
Keywords
electromagnetic compatibility; numerical analysis; radiofrequency interference; telecommunication equipment testing; telephone sets; wires (electric); EMC; EMI; RF current flows; digital telephone products; electromagnetic effects; immunity mechanism; immunity problems; long wires; measurement approach; modeling software; modeling tools; numeric modeling; parasitics; product development cycle times; radiated emissions; radiated immunity; reciprocity; susceptibility modeling analysis; unshielded products; Acoustic noise; Capacitance; Coupling circuits; Immunity testing; Interference; Numerical models; Printed circuits; Radio frequency; Telephony; Wires;
fLanguage
English
Publisher
ieee
Conference_Titel
Electromagnetic Compatibility, 1996. Symposium Record. IEEE 1996 International Symposium on
Conference_Location
Santa Clara, CA
Print_ISBN
0-7803-3207-5
Type
conf
DOI
10.1109/ISEMC.1996.561413
Filename
561413
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