Transient DC-bias and Hard-Switching Mitigation for Fast Power Reversal in Dual-Active-Bridge DC-DC Converters

Xu Han; Huiqing Wen; Qinglei Bu; Yinxiao Zhu; Zhichen Feng; Guangyu Wang; Shahamat Shahzad Khan; Wen Liu; Jiafeng Zhou; Yong Yang

doi:10.1109/TIA.2024.3355377

Transient DC-bias and Hard-Switching Mitigation for Fast Power Reversal in Dual-Active-Bridge DC-DC Converters

Xu Han, Huiqing Wen, Qinglei Bu, Yinxiao Zhu, Zhichen Feng, Guangyu Wang, Shahamat Shahzad Khan, Wen Liu, Jiafeng Zhou, Yong Yang

Research output: Contribution to journal › Article › peer-review

Abstract

As one of promising power interfaces in Microgrids, dual active bridge (DAB) converters have been extensively studied and widely applied. However, dc-bias current during its transient process, as well as the electromagnetic interference and the reduced efficiency caused by the hard-switching operation, urgently need to be addressed. In addition, traditional transient optimization strategies mainly focus on unidirectional power transmission, which cannot ensure fast power reverse operation of DAB converters and eliminate dc-bias current and hard-switching defects at the same time. To address this issue, a novel transient power reversal control (TPRC) strategy based on the principle of straightforward phase-shift optimization is proposed in this article. Extensive and comparative experimental evaluations under various scenarios have been conducted to verify the effectiveness of the proposed TPRC strategy.

Original language	English
Pages (from-to)	1-13
Number of pages	13
Journal	IEEE Transactions on Industry Applications
DOIs	https://doi.org/10.1109/TIA.2024.3355377
Publication status	Accepted/In press - 2024
Externally published	Yes

Keywords

DAB converter
dc-bias current
Inductors
Magnetization
Optimization
power reverse
Steady-state
Switches
Transient analysis
transient phase-shift modulation
Zero voltage switching
ZVS

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title = "Transient DC-bias and Hard-Switching Mitigation for Fast Power Reversal in Dual-Active-Bridge DC-DC Converters",

abstract = "As one of promising power interfaces in Microgrids, dual active bridge (DAB) converters have been extensively studied and widely applied. However, dc-bias current during its transient process, as well as the electromagnetic interference and the reduced efficiency caused by the hard-switching operation, urgently need to be addressed. In addition, traditional transient optimization strategies mainly focus on unidirectional power transmission, which cannot ensure fast power reverse operation of DAB converters and eliminate dc-bias current and hard-switching defects at the same time. To address this issue, a novel transient power reversal control (TPRC) strategy based on the principle of straightforward phase-shift optimization is proposed in this article. Extensive and comparative experimental evaluations under various scenarios have been conducted to verify the effectiveness of the proposed TPRC strategy.",

keywords = "DAB converter, dc-bias current, Inductors, Magnetization, Optimization, power reverse, Steady-state, Switches, Transient analysis, transient phase-shift modulation, Zero voltage switching, ZVS",

author = "Xu Han and Huiqing Wen and Qinglei Bu and Yinxiao Zhu and Zhichen Feng and Guangyu Wang and Khan, {Shahamat Shahzad} and Wen Liu and Jiafeng Zhou and Yong Yang",

note = "Publisher Copyright: IEEE",

year = "2024",

doi = "10.1109/TIA.2024.3355377",

language = "English",

pages = "1--13",

journal = "IEEE Transactions on Industry Applications",

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T1 - Transient DC-bias and Hard-Switching Mitigation for Fast Power Reversal in Dual-Active-Bridge DC-DC Converters

AU - Han, Xu

AU - Wen, Huiqing

AU - Bu, Qinglei

AU - Zhu, Yinxiao

AU - Feng, Zhichen

AU - Wang, Guangyu

AU - Khan, Shahamat Shahzad

AU - Liu, Wen

AU - Zhou, Jiafeng

AU - Yang, Yong

N1 - Publisher Copyright: IEEE

PY - 2024

Y1 - 2024

N2 - As one of promising power interfaces in Microgrids, dual active bridge (DAB) converters have been extensively studied and widely applied. However, dc-bias current during its transient process, as well as the electromagnetic interference and the reduced efficiency caused by the hard-switching operation, urgently need to be addressed. In addition, traditional transient optimization strategies mainly focus on unidirectional power transmission, which cannot ensure fast power reverse operation of DAB converters and eliminate dc-bias current and hard-switching defects at the same time. To address this issue, a novel transient power reversal control (TPRC) strategy based on the principle of straightforward phase-shift optimization is proposed in this article. Extensive and comparative experimental evaluations under various scenarios have been conducted to verify the effectiveness of the proposed TPRC strategy.

AB - As one of promising power interfaces in Microgrids, dual active bridge (DAB) converters have been extensively studied and widely applied. However, dc-bias current during its transient process, as well as the electromagnetic interference and the reduced efficiency caused by the hard-switching operation, urgently need to be addressed. In addition, traditional transient optimization strategies mainly focus on unidirectional power transmission, which cannot ensure fast power reverse operation of DAB converters and eliminate dc-bias current and hard-switching defects at the same time. To address this issue, a novel transient power reversal control (TPRC) strategy based on the principle of straightforward phase-shift optimization is proposed in this article. Extensive and comparative experimental evaluations under various scenarios have been conducted to verify the effectiveness of the proposed TPRC strategy.

KW - DAB converter

KW - dc-bias current

KW - Inductors

KW - Magnetization

KW - Optimization

KW - power reverse

KW - Steady-state

KW - Switches

KW - Transient analysis

KW - transient phase-shift modulation

KW - Zero voltage switching

KW - ZVS

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DO - 10.1109/TIA.2024.3355377

M3 - Article

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SN - 0093-9994

SP - 1

EP - 13

JO - IEEE Transactions on Industry Applications

JF - IEEE Transactions on Industry Applications

ER -

Transient DC-bias and Hard-Switching Mitigation for Fast Power Reversal in Dual-Active-Bridge DC-DC Converters

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Keywords

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