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Hybrid power systems derive power simultaneously from several renewable energy sources and deliver power continuously to the load. For such systems, the use of a multiple-input converter (MIC) has the advantage of simpler circuit design and lower cost, compared to the conventional use of several single-input converters. Taking dual-input Buck converter as the example in this paper, a new power management...
A multiple-input converter (MIC) is devoted to combining on-board energy sources in the electric vehicles (EVs) and hybrid-electronic vehicles (HEVs). By analyzing the structure of the single-input converters, the basic cells including the pulsating source cells (PSCs), the buffer cells (BCs) and the output filter are proposed for deriving various MIC topologies. MIC can be categorized into two lists,...
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