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This paper presents a new concept and research results of DC-DC high-voltage-gain, high-frequency step-up resonant converters. The proposed topologies are optimized towards minimizing the number of switches and improvements in efficiency. Another relevant advantage of such type of converters is that they have a common input and output negative point. The proposed converters are based on the resonant switched-capacitor voltage multiplier circuit, and that is why they are compared with a classic converter from this family. The included results show the operating principle, possible switching methods with the consideration of their impact on the voltage gain level, as well as the voltage and current ripples. The operating concepts and analytical calculations are confirmed by simulation and experimental results.
Robert Stala; Zbigniew Waradzyn; Szymon Folmer. DC-DC High-Voltage-Gain Converters with Low Count of Switches and Common Ground. Energies 2020, 13, 5657 .
AMA StyleRobert Stala, Zbigniew Waradzyn, Szymon Folmer. DC-DC High-Voltage-Gain Converters with Low Count of Switches and Common Ground. Energies. 2020; 13 (21):5657.
Chicago/Turabian StyleRobert Stala; Zbigniew Waradzyn; Szymon Folmer. 2020. "DC-DC High-Voltage-Gain Converters with Low Count of Switches and Common Ground." Energies 13, no. 21: 5657.