1. bookVolume 8 (2008): Issue 4 (August 2008)
Journal Details
License
Format
Journal
eISSN
1335-8871
First Published
07 Mar 2008
Publication timeframe
6 times per year
Languages
English
Open Access

Cabling Arrangement Influence on Repeatability of Immunity EMC Measurements

Published Online: 27 Aug 2008
Volume & Issue: Volume 8 (2008) - Issue 4 (August 2008)
Page range: 98 - 103
Journal Details
License
Format
Journal
eISSN
1335-8871
First Published
07 Mar 2008
Publication timeframe
6 times per year
Languages
English
Cabling Arrangement Influence on Repeatability of Immunity EMC Measurements

The paper deals with the analysis of induced current of differential loops of transmission lines during immunity test against electromagnetic field measurement. The influence of geometrical configuration of cabling arrangement on induced current values is surveyed. The problem is described for the case of a short two-wire line creating differential mode loop. The current induced at both ends of the line is the characteristics observed in the performed studies. The comparison between the results of measurements on real physical line, numerical simulations and analytical solution is presented.

Keywords

Paul, C. R. (1994). Analysis of multiconductor transmission lines. New York, USA: Wiley Interscience.Search in Google Scholar

Paul, C. R. (1994). A SPICE model for multiconductor transmission lines excited by an incident electromagnetic field. IEEE Transactions on Electromagnetic Compatibility36(4), 342 - 354.10.1109/15.328864Search in Google Scholar

Beggio, A., Bono, G., Zich, R. E. (1999). Analysis of the unwanted effects on the radiated emissions and susceptibility measurements due to the introduction of a wooden table. In IEEE EMC Symposium 1999, 2-6 August 1999 (pp. 761-764). Seattle, USA.10.1109/ISEMC.1999.810114Search in Google Scholar

Beeckman, P. A. (2001). The influence of positioning tables on the results of radiated EMC measurements. In IEEE EMC Symposium 2001, 13-17 August 2001 (pp. 280-285). Montreal, Canada.10.1109/ISEMC.2001.950635Search in Google Scholar

Omid, M., Kami, Y., Hayakawa, M. (1997). Field coupling to nonuniform and uniform transmission lines. IEEE Transactions on Electromagnetic Compatibility39(3), 201 - 211.10.1109/15.618047Search in Google Scholar

Adams, J. W., Cruz, J., Melquist, D. (1992). Comparison measurements of currents induced by radiation and injection. IEEE Transactions on Electromagnetic Compatibility34(3), 360-362.10.1109/15.155856Search in Google Scholar

ANALOG DEVICES, Inc. (2003) Low cost DC-500 MHz, 92 dB logarithmic amplifier AD8307. Retrieved November 2003, from http://www.analog.comSearch in Google Scholar

Electromagnetic compatibility (EMC) - part 4-3: testing and measurement techniques - radiated, radio-frequency, electromagnetic field immunity test. (1996). Slovak version of European standard. STN EN 61000-4-3.Search in Google Scholar

Recommended articles from Trend MD

Plan your remote conference with Sciendo