Self-driven synchronous rectification system for converters with symmetrically driven transformer based on the use of the output inductor

Synchronous rectification (SR) is mandatory to achieve good efficiencies with low output voltages. If the transformer is driven asymmetrically without dead times, self-driven synchronous rectification (SDSR) is a very interesting solution. However, if the transformer is driven symmetrically, the syn...

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Bibliographic Details
Published inTwenty-First Annual IEEE Applied Power Electronics Conference and Exposition, 2006. APEC '06 p. 7 pp.
Main Authors Fernandez, A., Sebastian, J., Hernando, M.M., Lamar, D.G.
Format Conference Proceeding
LanguageEnglish
Published IEEE 2006
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Summary:Synchronous rectification (SR) is mandatory to achieve good efficiencies with low output voltages. If the transformer is driven asymmetrically without dead times, self-driven synchronous rectification (SDSR) is a very interesting solution. However, if the transformer is driven symmetrically, the synchronous rectifiers are off during the dead times and, as a consequence, the efficiency is lowered. This paper deals with the optimisation of a SDSR system, that keeps the rectifiers on even during the dead times. The system is based on using the output inductor to turn the SR on and the power transformer waveform to turn them off. Hence, the most important parameters have been studied in order to obtain the highest possible efficiency. This system is very interesting because it can be used in any topology with a symmetrically driven transformer independently of the output voltage level and for a wide input voltage range. The system has been implemented in a prototype in order to measure the real efficiency that can be achieved with the proposed scheme and compared with the efficiency of the same prototype without SDSR
ISBN:0780395476
9780780395473
ISSN:1048-2334
2470-6647
DOI:10.1109/APEC.2006.1620625