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A Topology Morphing Multi-Element Resonant Soft-Switching DC-DC Converter |
Wang Yifeng1, Yang Liang1, Chen Bo1, Han Fuqiang1, Zhou Biao2 |
1. Key Laboratory of Smart Grid of Ministry of Education Tianjin University Tianjin 300072 China; 2. State Grid Tianjin Dongli District Power Supply Company Tianjin 300300 China |
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Abstract In this paper, a topology morphing multi-element resonant soft-switching DC-DC converter is discussed. By adopting the dual-transformer architecture, the resonant tank unit employs two auxiliary switches to enable or disable the auxiliary transformer, so that the equivalent circuit of the resonant tank can be flexibly converted between the two different multi-element topologies. At the same time, the inverter cell includes the full-bridge and half-bridge working modes. Consequently, the proposed converter has four different working modes. The multi-mode characteristic can meet different operating requirements. Therefore, by designing appropriate parameters, the topology morphing multi-element resonant converter (MRC) can achieve wide-range adjustment of DC voltage gain within a narrow operating frequency range while maintaining high efficiency. In order to verify the feasibility of the novel converter and the reliability of the theoretical analysis, the experimental results have been presented: when the input DC voltage varies from 25V to 300V, the converter can provide an adjustable voltage gain from 0 to a maximum of 8 times, and thereby the output voltage is stabilized at 200V; the relatively high efficiencies within wide voltage gain range are also guaranteed by the converter, and the highest efficiency reaches as high as 98.1%.
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Received: 19 July 2017
Published: 29 December 2018
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