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High-Voltage Lift DC–DC Converter With Reduced Switch Stress

A. Bharathsimha Reddy, Sankar Narayan Mahato, Nilanjan Tewari

2024IEEE Journal of Emerging and Selected Topics in Power Electronics21 citationsDOI

Abstract

DC microgrids have gained prominence due to the successful incorporation of renewable energies, like fuel cells and photovoltaics, etc., through power electronic interfaces. Because of the lower voltage level of these power sources, DC-DC converters are required to connect them with the DC microgrid. This paper presents a highly efficient non-isolated DC-DC converter with a dual-switch configuration, achieving high gain while minimizing switch stress. A modified switched inductor (SI) and a switched capacitor (SC) are incorporated to achieve a high gain in voltage. The incorporation of an additional switch in place of the diode results in the stress of voltage on active switches being only 25% of the output voltage. This proposed concept is validated by experimental findings acquired from a 380[V], 200[W] prototype converter. The results also demonstrate that the converter maintains an efficiency of 95.79% at full load with superior utilization of its constituent parts.

Topics & Concepts

Forward converterCharge pumpVoltageFlyback converterMaterials scienceStress (linguistics)Electrical engineeringLift (data mining)Low-dropout regulatorBoost converterCapacitorComputer scienceEngineeringVoltage regulationDropout voltageData miningPhilosophyLinguisticsAdvanced DC-DC ConvertersInduction Heating and Inverter TechnologyMultilevel Inverters and Converters
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