Fault-Tolerant Operation of a TLC-MMC Hybrid DC-DC Converter for Interconnection of MVDC and HVdc Grids

Abstract

An isolated bidirectional dc-dc converter, which combines multiple two-level converters (TLCs) in parallel on the medium-voltage side and a modular multilevel converter (MMC) on the high-voltage side, namely the TLC-MMC converter, is a promising candidate for the interconnection of MVdc and HVdc grids. In utility applications, the availability of power converters is of great importance, which makes the fault-tolerant operation (FTO) capability a required feature. In this paper, an FTO scheme of the TLC-MMC converter in case of a TLC failure is addressed. The FTO capability is enabled by employing only mechanical disconnectors. The faulty TLC can be bypassed and isolated for maintenance, and the TLC-MMC converter can continuously operate with a reduced power capacity. A dedicated mode-transition strategy is developed, whereby the TLC-MMC converter can transit to the fault-tolerant mode seamlessly without resulting in overvoltage or overcurrent despite the involvement of low-speed mechanical disconnectors. Thus, the proposed approach can effectively enhance the availability of the TLC-MMC converter. The validity of the proposed approach is verified by both simulation and experimental test with a down-scale prototype.