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Decoupled Power-Balancing Control Strategy for Two-Phase Interleaved Parallel Bidirectional DC Converter Based on Frequency-Doubling Sampling |
Fan Qigao1, Lu Yuzhuo1, Bi Kaitao1, An Quntao2, Zhu Yixin1 |
1. School of Internet of things Engineering Jiangnan University Wuxi 214122 China; 2. School of Electrical Engineering and Automation Harbin Institute of Technology Harbin 150001 China |
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Abstract A decoupled power-balancing control strategy for the two-phase interleaved parallel three-level bidirectional DC-DC converter is proposed in this paper, and the use of current sensors is effectively reduced. By analyzing the working principle of topology, an equivalent two-level analysis method under the two-phase interleaved parallel topology is obtained. On this basis, a decoupled power-balancing control strategy based on total current time-sharing and frequency-doubling sampling is proposed to fully decouple the voltage regulation of the converter from the current-balancing control between phases. In addition, the four channels of current sampling required by the conventional balance control are reduced to two channels, which simplifies the control structure. A small signal model based on the equivalent topology is established, and the specific design scheme of the controller parameters is given. Finally, the proposed control strategy is verified by a physical experiment.
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Received: 15 July 2021
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