Title :
A waveform relaxation technique for steady state initialization of circuits with nonlinear elements and ideal diodes
Author :
Wang, Q. ; Marti, J.R.
Author_Institution :
Dept. of Electr. Eng., British Columbia Univ., Vancouver, BC, Canada
fDate :
7/1/1996 12:00:00 AM
Abstract :
This paper presents an efficient and robust technique for finding steady-state harmonic solutions in power circuits with nonlinear elements and ideal diode-type devices. The problem is formulated as a two-point boundary value (TPBV) problem using the waveform relaxation technique. Ideal diodes are modelled using a multiple area Thevenin equivalent technique. The overall solution is very robust and convergence is achieved within a few iterations even for very low damping and stiff systems. Examples are presented comparing the proposed technique with a previous technique and with direct “brute-force” integration
Keywords :
SPICE; circuit analysis computing; convergence of numerical methods; equivalent circuits; harmonic analysis; iterative methods; nonlinear network analysis; power semiconductor diodes; power system analysis computing; power system harmonics; software packages; convergence; iterations; multiple area Thevenin equivalent technique; nonlinear circuit elements; numerical robustness; power electronic circuits; power systems; steady-state circuit initialization; two-point boundary value problem; waveform relaxation technique; Circuits; Damping; Diodes; Harmonic analysis; Power electronics; Power system analysis computing; Power system harmonics; Power system modeling; Robustness; Steady-state;
Journal_Title :
Power Delivery, IEEE Transactions on
