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A generalized steady-state analysis of resonant converters using two-port model and Fourier-series approach

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1 Author(s)
A. K. S. Bhat ; Dept. of Electr. & Comput. Eng., Victoria Univ., BC, Canada

A generalized steady-state analysis of resonant converters using a two-port model and Fourier-series approach is presented. Analysis is presented for both voltage-source (VS) and current-source (CS)-type loads. Analysis can also be used either for variable-frequency (half- or full-bridge) or fixed-frequency (phase-shift control for full-bridge) operation. Steady-state solutions have been obtained. Particular cases are considered to show the method of application in analyzing different schemes. A simple design procedure is given for two particular cases to illustrate the use of analysis in obtaining design curves and in designing the converters. Experimental results obtained from a MOSFET-based 500-W fixed-frequency LCL-type resonant converter are presented to verify the analysis

Published in:

IEEE Transactions on Power Electronics  (Volume:13 ,  Issue: 1 )