Conference contribution
(Conference Contribution)


Electromagnetic analysis of conductor track surface roughnesses from 1 GHz to 110 GHz


Publication Details
Author(s): Talai A, Gmeiner B, Wegener CM, Roosen A, Kölpin A, Steinhäußer F, Deisinger U, Bittner A, Schmid U, Weigel R
Title edited volumes: Proceedings - 2014 International Conference on Electromagnetics in Advanced Applications, ICEAA 2014
Publisher: Institute of Electrical and Electronics Engineers Inc.
Publication year: 2014
Conference Proceedings Title: Electromagnetics in Advanced Applications (ICEAA), 2014 International Conference on
Pages range: 415-418

Event details
Event: International Conference on Electromagnetics in Advanced Applications (ICEAA)
Event location: Palm Beach
Start date of the event: 03/08/2014
End date of the event: 08/08/2014
Language: English

Abstract

Conductor tracks comprise a frequency dependent attenuation of electromagnetic waves, since with increasing frequency the current flow is displaced to the near surface region due to the skin effect. Therefore, the effective length of the conductor is increased by the surface roughness, while its effective cross-section is decreased by current displacement, both leading to higher metallization loss. In this paper, surface topographies of typical conductor materials were recorded by confocal microscopy and rebuilt as 3D CAD models. Subsequent electromagnetic simulations reveal the influence due to roughness on high frequency characteristics for physical vapor deposited, thick film and photochemically etched microstrips.



How to cite
APA: Talai, A., Gmeiner, B., Wegener, C.M., Roosen, A., Kölpin, A., Steinhäußer, F.,... Weigel, R. (2014). Electromagnetic analysis of conductor track surface roughnesses from 1 GHz to 110 GHz. In Electromagnetics in Advanced Applications (ICEAA), 2014 International Conference on (pp. 415-418). Palm Beach, AW: Institute of Electrical and Electronics Engineers Inc..

MLA: Talai, Armin, et al. "Electromagnetic analysis of conductor track surface roughnesses from 1 GHz to 110 GHz." Proceedings of the International Conference on Electromagnetics in Advanced Applications (ICEAA), Palm Beach Institute of Electrical and Electronics Engineers Inc., 2014. 415-418.

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