Author :
Gole, A.M. ; Keri, Albert ; Kwankpa, C. ; Gunther, E.W. ; Dommel, H.W. ; Hassan, I. ; Marti, J.R. ; Martinez, J.A. ; Fehrle, K.G. ; Tang, L. ; McGranaghan, M.F. ; Nayak, O.B. ; Ribeiro, P.F. ; Iravani, R. ; Lasseter, R.
Abstract :
This paper presents a summary of guidelines for modeling power electronics in various power engineering applications. This document is designed for use by power engineers who need to simulate power electronic devices and sub-systems with digital computer programs. The guideline emphasizes the basic issues that are critical for successfully modeling power electronics devices and the interface between power electronics and the utility or industrial system. The modeling considerations addressed in this guideline are generic for all power electronics modeling independent of the computational tool. However, for the purposes of illustration, the simulation examples presented are based on the EMTP or EMTP type of programs. The procedures used to implement power electronics models in these examples are valuable for using other digital simulation tools
Keywords :
HVDC power transmission; PWM invertors; circuit analysis computing; digital simulation; power electronics; power system control; semiconductor device models; snubbers; switching circuits; variable speed drives; EMTP; HVDC terminal; PWM VSI; PWM voltage source inverter; adjustable speed drives; computational tool; digital computer programs; electric power engineering applications; industrial system; power electronic devices simulation; power electronic sub-systems simulation; power electronics modeling; power system control; semiconductor switching devices; shunt compensation; snubber treatment; utility system; voltage notching; Application software; Computational modeling; Computer simulation; Design engineering; EMTP; Guidelines; Power electronics; Power engineering; Power engineering and energy; Power system modeling;
