Title :
EMTP modeling of electromagnetic transients in multi-mode coaxial cables by finite sections
Author :
Meredith, Robert J.
Author_Institution :
New York Power Authority, White Plains, NY, USA
fDate :
1/1/1997 12:00:00 AM
Abstract :
This paper introduces a way of modeling electromagnetic propagation in conductive materials, termed the method of finite sections. It addresses the issues of modeling frequency-dependent impedances and frequency-dependent coupling of conductors. Its use is demonstrated by application to transient modeling of a multi-mode coaxial cable system in the Electromagnetic Transients Program (EMTP), a situation which eludes accurate representation. In addition to its use in modeling coaxial cables, the method is applicable to modeling of overhead lines, pipe-type cables, transformer cores and walls, lightning arrestors and other situations in which sufficient planar or cylindrical symmetry exists. The method provides the only accurate EMTP means of modeling wave propagation in nonlinear resistive and/or inductive conductors
Keywords :
arresters; coaxial cables; electric impedance; electromagnetic wave propagation; power cables; power overhead lines; power transformers; power transmission lines; transient analysis; EMTP; conductive materials; cylindrical symmetry; electromagnetic propagation; electromagnetic transients modelling; finite sections; frequency-dependent coupling; frequency-dependent impedances; inductive conductors; lightning arrestors; multi-mode coaxial cables; nonlinear resistive conductors; overhead lines; pipe-type cables; planar symmetry; transformer cores; transformer walls; Coaxial cables; Coaxial components; Conducting materials; EMTP; Electromagnetic modeling; Electromagnetic propagation; Electromagnetic transients; Frequency; Impedance; Transformer cores;
Journal_Title :
Power Delivery, IEEE Transactions on
