Proceedings Article10.1109/ARFTG.1988.323901
Analysis of Multiconductor Transmission Lines
T. B. Arabi,T. K. Sarkar +1 more
- 24 May 1988
- Vol. 13, pp 45-54
1.5K
TL;DR: In this paper, the authors outline a methodology for the computation of the response of a multiconductor transmission line terminated by linear networks, where the lines are embedded in a multilayered lossy dielectric media and have arbitrary cross sections, but uniform along the length.
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Abstract: The objective of this paper is to outline a methodology for the computation of the response of a multiconductor transmission line terminated by linear networks. The lines are embedded in a multilayered lossy dielectric media and have arbitrary cross sections, but uniform along the length. To check the accuracy of the theoretical results, extensive experimental verification has been carried out.
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References
•Book
Numerical Recipes in FORTRAN
William T. Vetterling,Saul A. Teukolsky,William H. Press,Brian P. Flannery +3 more
- 26 Feb 1988
TL;DR: The Diskette v 2.04, 3.5'' (720k) for IBM PC, PS/2 and compatibles [DOS] Reference Record created on 2004-09-07, modified on 2016-08-08.
10.2K
Introduction to Solid State Physics
TL;DR: Kind's new edition is to be welcomed as mentioned in this paper, with a revised format and attractive illustrations, and with the inclusion of much new material this book has become one of the best sources for undergraduate teaching, likely to give the student a wish to dig deeper into the solid state.
8.9K
Asymptotic waveform evaluation for timing analysis
L.T. Pillage,R.A. Rohrer +1 more
TL;DR: Asymptotic waveform evaluation (AWE) provides a generalized approach to linear RLC circuit response approximations and reduces to the RC tree methods.
1.8K
The modified nodal approach to network analysis
TL;DR: In this article, a modified nodal analysis (MNA) method is proposed, which retains the simplicity and other advantages of nodal Analysis while removing its limitations, and a simple and effective pivoting scheme is also given.
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