Fault-surge calculation using phase-domain ARMA line model.

For fault-surge studies, the most important and also most difficult part of the simulation is inclusion of the frequency dependence of the transmission line, because the simulation requires high accuracy in a wide frequency range, from the power frequency to a few megahertz. The authors have developed a highly efficient method of modeling a transmission line considering its complete frequency dependence, which cannot be dealt with in the present line models in the Electro-Magnetic Transients Program (EMTP). According to the method, a transmission line is modeled directly in the phase domain in order to avoid model transformation and thus to eliminate the problems of representing its frequency dependence. The method also includes sophisticated acceleration of transient calculations by means of an autoregressive moving average (ARMA) model. This paper presents a method of steady-state initialization of the phase-domain ARMA line model for applying it to fault-surge calculations. The calculated results agree well with rigorous frequency-domain simulations and show improved accuracy compared with an existing frequency-dependent line model (J. Marti model) widely used as a standard model in the EMTP. © 1998 Scripta Technica, Inc. Electr Eng Jpn, 121(3): 27–35, 1997 [ABSTRACT FROM AUTHOR]