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A Novel Medium-Voltage Hybrid-Cascaded DC–DC Converter With DC Fault-Blocking Capability and Reduced Switch Capacity

Haiyu Chen, Jinjun Liu, Sixing Du, Zhifeng Deng, Cong Li

2022IEEE Transactions on Power Electronics14 citationsDOI

Abstract

In this article, a medium-voltage nonisolated dc–dc converter with dc fault-blocking capability is proposed. The converter is designed to connect two high-voltage dc networks with varying voltage levels. The proposed converter is composed of a string of cascaded modules and two sets of series-connected switches. The cascaded modules have all the merits of modular design, and the series-connected switches avoid dynamic balancing issues due to the zero-voltage switching feature. The single-string structure of the proposed converter helps reduce the number of switches, power losses, and volume. The power efficiency of the converter is evaluated to be as high as 99.3%. The feasibility of the proposed converter is verified via 32-kV 22.5-MW simulations and 240-V 1.45-kW experiments.

Topics & Concepts

Forward converterĆuk converterFlyback converterVoltageElectronic engineeringCharge pumpBoost converterBlocking (statistics)Fault (geology)Modular designBuck–boost converterElectrical engineeringComputer sciencePower (physics)Topology (electrical circuits)EngineeringCapacitorPhysicsQuantum mechanicsGeologyComputer networkSeismologyOperating systemAdvanced DC-DC ConvertersSilicon Carbide Semiconductor TechnologiesHVDC Systems and Fault Protection
A Novel Medium-Voltage Hybrid-Cascaded DC–DC Converter With DC Fault-Blocking Capability and Reduced Switch Capacity | Litcius