TY - JOUR
T1 - A Multistructure Multimode Three-Phase Dual-Active-Bridge Converter Targeting Wide-Range High-Efficiency Performance
AU - Khan, Akif Zia
AU - Chan, Yiu Pang
AU - Yaqoob, Muhammad
AU - Loo, Ka Hong
AU - Davari, Pooya
AU - Blaabjerg, Frede
N1 - Funding Information:
Manuscript received December 18, 2019; revised March 31, 2020 and June 16, 2020; accepted August 4, 2020. Date of publication August 6, 2020; date of current version October 30, 2020. This work was supported by the Hong Kong Polytechnic University Central Research under Grant G-YBXL. Recommended for publication by Associate Editor S. Choi. (Corresponding author: Akif Zia Khan.) Akif Zia Khan, Yiu Pang Chan, and Ka-Hong Loo are with the Department of Electronic and Information Engineering, The Hong Kong Polytechnic University, Hung Hom, Hong Kong (e-mail: [email protected]; [email protected]; [email protected]).
Publisher Copyright:
© 1986-2012 IEEE.
PY - 2021/3
Y1 - 2021/3
N2 - A three-phase dual-active-bridge (3p-DAB) converter is an attractive topology for bidirectional power conversion in high-power applications. However, conduction and switching losses are two main loss mechanisms that severely affect its efficiency performance, and adoption of any single modulation scheme or topology cannot minimize these losses over a wide operating range. For this purpose, a reconfigurable topology of the 3p-DAB converter is proposed in this article that utilizes a reconfigurable and tunable resonant network to offer multiple degrees of freedom in minimizing conduction and switching losses over a wide range of operating conditions. The converter is designed such that for 40-100% of the rated output power, it operates as a tunable 3p-DAB resonant immittance converter with its output power controlled by varying switching frequency and tuning the resonant frequency of a resonant immittance network to track the switching frequency. Below 40% of the rated output power, the converter transforms to a tunable 3p-DAB series-resonant converter with its output power controlled by varying the impedance of a series-resonant network while keeping the switching frequency and phase shift constant. The combination of both operation modes jointly leads to wide-range zero circulating current and soft switching of all the switches and, hence, a wide-range high-efficiency performance, as validated by the experimental results.
AB - A three-phase dual-active-bridge (3p-DAB) converter is an attractive topology for bidirectional power conversion in high-power applications. However, conduction and switching losses are two main loss mechanisms that severely affect its efficiency performance, and adoption of any single modulation scheme or topology cannot minimize these losses over a wide operating range. For this purpose, a reconfigurable topology of the 3p-DAB converter is proposed in this article that utilizes a reconfigurable and tunable resonant network to offer multiple degrees of freedom in minimizing conduction and switching losses over a wide range of operating conditions. The converter is designed such that for 40-100% of the rated output power, it operates as a tunable 3p-DAB resonant immittance converter with its output power controlled by varying switching frequency and tuning the resonant frequency of a resonant immittance network to track the switching frequency. Below 40% of the rated output power, the converter transforms to a tunable 3p-DAB series-resonant converter with its output power controlled by varying the impedance of a series-resonant network while keeping the switching frequency and phase shift constant. The combination of both operation modes jointly leads to wide-range zero circulating current and soft switching of all the switches and, hence, a wide-range high-efficiency performance, as validated by the experimental results.
KW - DC-DC power conversion
KW - immittance converters (ICs)
KW - resonant power conversion
KW - series-resonant network
KW - unity power factor (UPF)
KW - zero-voltage switching (ZVS)
UR - http://www.scopus.com/inward/record.url?scp=85095711095&partnerID=8YFLogxK
U2 - 10.1109/TPEL.2020.3014900
DO - 10.1109/TPEL.2020.3014900
M3 - Journal article
AN - SCOPUS:85095711095
SN - 0885-8993
VL - 36
SP - 3078
EP - 3098
JO - IEEE Transactions on Power Electronics
JF - IEEE Transactions on Power Electronics
IS - 3
M1 - 9161275
ER -