Title :
Steady state analysis for an off-line series resonant converter
Author :
Moussa, Wisam ; Morris, James E.
Author_Institution :
IBM Corp., Endicott, NY, USA
Abstract :
A steady state analysis of an offline, high frequency series resonant converter that operates from 200 VDC and produces 5.0 VDC at 10 A is presented. Regulation is accomplished through varying the switching frequency while keeping the ON time of the switch constant. The switching cycle is split into separate stages, each stage analyzed through a description of its state equations. Some of the features of this converter are: the switches turn both on and off into zero current, the inductor (L) current and capacitor (C) voltage waveforms have finite slopes causing less electromagnetic interference (as opposed to pulse-width-modulation converters) the transformer´s leakage inductance can be used in part or entirely as the resonant inductor, and the current in L and the voltage across C do not resonate continuously-instead, they assume fixed values at the end of every cycle
Keywords :
nonlinear network analysis; power convertors; 10 A; 200 V; 5.0 V; high frequency series resonant converter; off-line series resonant converter; state equations; steady state analysis; switching cycle; switching frequency; Equations; Frequency conversion; Inductors; Resonance; Resonant frequency; Steady-state; Switches; Switching converters; Switching frequency; Zero voltage switching;
Conference_Titel :
Southern Tier Technical Conference, 1990., Proceedings of the 1990 IEEE
Conference_Location :
Binghamton, NY
DOI :
10.1109/STIER.1990.324627
