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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Citations
Bulk FDTD Simulation of Distributed Corona Effects and Overvoltage Profiles for HSIL Transmission Line Design
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TL;DR: In this paper, the authors extended the finite difference time domain (FDTD) method with distributed corona losses to transmission lines with bundled conductors and applied it to an example 500 kV line.
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The use of grounded lines in non-uniform interconnects
TL;DR: A new non-uniform structure is presented to reduce the crosstalk and maximize the delivered power to the main load in VLSI circuits, based on steplines approximation of non- uniform lines and modal decomposition method for the coupled lines.
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Uncertainty Quantification of the Crosstalk in Multiconductor Transmission Lines via Degree Adaptive Stochastic Response Surface Method
Quanyi Yu,Wei Liu,Kaiyu Yang,Xilai Ma,Tianhao Wang +4 more
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TL;DR: In this paper, the degree adaptive stochastic response surface method is applied to analyze statistically the crosstalk in multiconductor transmission lines (MTLs), and the coefficient of polynomial chaos expansion (PCE) is obtained based on the least angle regression.
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A new modal analysis theory for multiconductor nonuniform transmission-line structures: application to the analysis of line junctions
TL;DR: In this paper, a generalized modal analysis approach to the study of multiconductor non-uniform transmission-line structures is presented for the purpose of illustrating the various steps involved in the application of the new modal technique.
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Efficient Reduced-Order Macromodels of Massively Coupled Interconnect Structures via Clustering
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Numerical Recipes in FORTRAN
William T. Vetterling,Saul A. Teukolsky,William H. Press,Brian P. Flannery +3 more
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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.
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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.
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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.
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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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