Quasi-Resonant Boost-Half-Bridge Converter With Reduced Turn-Off Switching Losses for 16 V Fuel Cell Application
IEEE Transactions on Power Electronics(2013)
Abstract
An active-clamped current-fed converter can achieve not only lossless clamping but also zero-voltage switching. In particular, a boost-half-bridge (BHB) converter is one of the most suitable candidates for high-current, high-step-up applications owing to its low transformer turn ratio, reduced voltage rating of diodes, zero magnetizing dc offset, and symmetrical structure for all components. In this letter a quasi-resonant switching technique for a BHB converter with active clamping is proposed to significantly reduce turn-off switching losses. Experimental results for a 16 V, 1.2 kW prototype validate the effectiveness of the proposed concept.
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Key words
fuel cells,resonant power convertors,zero voltage switching,BHB converter,ZVS,active-clamped current-fed converter,fuel cell application,high-step-up applications,lossless clamping,low transformer turn ratio,power 1.2 kW,quasiresonant boost-half-bridge converter,symmetrical structure,turn-off switching losses reduction,voltage 16 V,voltage rating reduction,zero magnetizing dc offset,zero-voltage switching,Boost half bridge,current fed,fuel cell,quasi-resonant
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