Open AccessCircuit Models of Lossy Multic onductor Transmission Lines: Incident Plane Wave Effect
Author(s) -
Mohamed Siala,
Hicham Rouijaa,
Abdelilah Ghammaz
Publication year - 2016
Publication title -
international journal of electrical and computer engineering
Language(s) - English
Resource type - Journals
ISSN - 2088-8708
DOI - 10.11591/ijece.v6i5.pp2369-2378
Subject(s) - spice , lossy compression , computer science , electric power transmission , domain (mathematical analysis) , plane (geometry) , variety (cybernetics) , frequency domain , electronic engineering , plane wave , time domain , acoustics , telecommunications , electrical engineering , physics , optics , mathematics , engineering , mathematical analysis , artificial intelligence , geometry , computer vision
In this paper, we concentrate on the variety impacts of incident plane wave on multiconductor transmission lines, utilizing Branin’s method, which is alluded to as the method of characteristics. The model can be directly used for the time-domain and frequency-domain analyses, Moreover, it had the advantage of being used without the need of setting the preconditions of the charges applied to its ends; this permits it to be effortlessly embedded in circuit simulators, for example Spice, Saber, and Esacap. This model validity is affirmed by contrasting our simulation results under ESACAP and different results, and we will talk about variety impacts of incident plane wave.