Abstract
An efficient algorithm suitable for the analysis of any general configuration of thyristor circuits is described. This algorithm uses the state-variable approach. However, the computation of state equations for each mode is done in a more efficient manner than in the algorithms existing at present. This is done by using a master fundamental cutset matrix for the network from which the corresponding matrices for each mode are easily computed. Case studies carried out for typical thyristor circuits reveal considerable reduction in computation time in comparison with existing algorithms. The results of analysis of a dc chopper circuit are presented in detail.
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