Mode Analysis and Fault-Tolerant Method of Open-Circuit Fault for a Dual Active-Bridge DC-DC Converter

A dual active-bridge (DAB) dc-dc converter is widely used in bidirectional high-power conversion, such as renewable energy system or train traction system. The open-circuit fault of DAB may threaten the system safety operation and should be eliminated in time. In this article, each fault mode of DAB...

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Bibliographic Details
Published in:IEEE transactions on industrial electronics (1982) 2020-08, Vol.67 (8), p.6916-6926
Main Authors: Zhao, Nan, Liu, Jianqiang, Shi, Yunming, Yang, Jingxi, Zhang, Jiepin, You, Xiaojie
Format: Article
Language:English
Subjects:
Bearing strength
Bridge circuits
Circuit faults
Circuits
Dual active-bridge (DAB) dc–dc converter
Electric bridges
Electric converters
Energy conversion
Fault tolerance
Fault tolerant systems
fault-tolerant method
Insulated gate bipolar transistors
Load carrying capacity
mode analysis
open-circuit fault
Switches
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Summary:A dual active-bridge (DAB) dc-dc converter is widely used in bidirectional high-power conversion, such as renewable energy system or train traction system. The open-circuit fault of DAB may threaten the system safety operation and should be eliminated in time. In this article, each fault mode of DAB is analyzed in detail. The transient operations and the load-carrying capacity are carefully analyzed. Based on the analysis, a DAB fault-tolerant method called "primary-side lower power secondary-side bypass arm" (PLP-SBA) is proposed. When the fault occurs in the primary side, the power of DAB is cut down, and when the fault occurs in the secondary side, the entire fault bridge arm is bypassed. The PLP-SBA method can ensure a certain load-carrying capacity after an open-circuit fault. A 5-kW DAB experimental platform is built to verify the correctness and effectiveness of the DAB mode analysis and PLP-SBA method.
ISSN:0278-0046
1557-9948
DOI:10.1109/TIE.2019.2937066