Title :
GTO thyristor modelling using SABER
Author :
Smith, David M. ; Goodman, Colin J. ; Zelaya, Hector
Author_Institution :
Sch. of Electron. & Electric Eng., Birmingham Univ., UK
Abstract :
This paper demonstrates the use of an equivalent circuit model for simulation of the gate turn off (GTO) thyristor, which is commonly used in high power electronic circuits, and its implementation in the SABER simulator. The model consists of three basic sub circuit elements; voltage and current controlled current sources and charge storage elements, all of which exhibit very nonlinear behavioural characteristics. However, these are successfully simulated using the equation solving algorithms available within SABER, unlike some SPICE based simulators where source code alterations are necessary. An introduction to the GTO device is given, followed by a description of the model and its operation, information regarding its implementation in the SABER simulator is explained, and a comparison of simulated and experimental results is made
Keywords :
circuit analysis computing; digital simulation; equivalent circuits; power electronics; semiconductor device models; software packages; thyristors; GTO thyristor; SABER; algorithms; charge storage; current sources; digital simulation; equivalent circuit; nonlinear behavioural characteristics; power electronic; semiconductor device models; software packages;
Conference_Titel :
Power Electronics and Computer Aided Engineering, IEE Colloquium on
Conference_Location :
London
