Design optimization for asymmetrical half-bridge converters

Design optimization for asymmetrical half-bridge converters

A zero-voltage switching (ZVS) technique employing a resonant-transition during a switching interval has been explored for many years. To ensure ZVS operation, two approaches were frequently chosen, separately or mixed. One is to have enough gap on the main core. The other is to add an external indu...

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Bibliographische Detailangaben
Hauptverfasser: Liang, J.H., Po-Chueh Wang, Kuo-Chien Huang, Chern-Lin Chen, Yi-Hsin Leu, Tsuo-Mim Chen
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Circuit noise
Circuit topology
Design optimization
Electromagnetic interference
Inductance
Inductors
Parasitic capacitance
Resonance
Transformer cores
Zero voltage switching
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Zusammenfassung:A zero-voltage switching (ZVS) technique employing a resonant-transition during a switching interval has been explored for many years. To ensure ZVS operation, two approaches were frequently chosen, separately or mixed. One is to have enough gap on the main core. The other is to add an external inductor in series with the main transformer. However, both approaches suffer from the parasitic ringing phenomena in the practical circuit. The parasitic ringing is generated by the leakage inductance/external inductor and the stray capacitance seen from the transformer primary winding. It introduces additional losses and EMI noise. To alleviate these problems, a ring-free mechanism is proposed. It can apply to most of the conventional zero-voltage switching topologies. The asymmetrical half-bridge converter with this mechanism is presented here. With 94% efficiency and 6 dB improvement on conducted EMI measurement were recorded using an offline 24 V/5 A prototype.
DOI:10.1109/APEC.2001.912445