H5+Converter: A Bidirectional AC-DC Converter With DC-Fault-Blocking and Self-Pre-Charge Capabilities

Abstract

A pulsewidth-modulation bidirectional ac-dc converter (i.e., active rectifier) with dc-fault-blocking and self-precharge capabilities is proposed in this paper for low voltage dc (LVdc) applications. The proposed converter, which is named as "H5 + converter," consists of an H4 bridge, a bidirectional switch, and a transient-voltage-surge (TVS) diode. The bidirectional switch and the TVS diode enable the de fault blocking and dc bus self-pre-charge, while preserving the low common-mode voltage noise and low leakage current of the converter. Additionally, the proposed H5+ converter has advanced features under a dc-side short-circuit fault, such as fault diagnosis and fault recovery. Operation principles of the proposed converter are presented and analyzed. A down-scaled prototype is built. Experiment results are shown and analyzed, including steady-state waveforms, common-mode performance, start-up dynamics, as well as de fault blocking, fault diagnosis, and fault recovery. Moreover, the proposed converter is compared with other two dc-fault-blocking converters for LVdc applications, in terms of converter capabilities, required devices, and power switch losses.