Abstract
Aiming at the improvement of electric vehicle endurance and its role in the future smart grid construction, this paper proposes a multi-port energy conversion system of electric vehicle based on bridge-type Buck-Boost topology. The energy conversion system consists of an on-board photovoltaic charging circuit, an energy conversion circuit implementing energy exchange between electric vehicles, and an energy conversion circuit implementing energy exchange between grid and electric vehicle. Bridge-type Buck-Boost circuit is adopted between each port, so as to realize the energy conversion of electric vehicle. The feasibility and superiority of the system are verified by experiments.
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Acknowledgments
This paper was supported in part by the Jiangsu Natural Science Foundation under Grant BK20181218, in part by the Equipment pre-research project under Grant 61873346, in part by the Science and Technology Cooperation Fund of Yangzhou City Hall project under Grant YZ2018136, YZ2018212, in part by the Open Project Fund of Yangzhou University Jiangdu Institute of High-end Equipment Engineering Technology under Grant YDJD201902, and in part by the Intelligent Energy Internet Research Institute Joint Fund of State Grid Yangzhou Power Supply Company and Yangzhou University under Grant SGTYHT/17-JS-202.
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Zhang, Y., Xia, X., Ge, X., Tang, W., Fang, Y. (2021). Design of Multi-port Energy Conversion System of Electric Vehicle Based on Bridge-Type Buck-Boost Topology. In: Jia, Y., Zhang, W., Fu, Y. (eds) Proceedings of 2020 Chinese Intelligent Systems Conference. CISC 2020. Lecture Notes in Electrical Engineering, vol 705. Springer, Singapore. https://doi.org/10.1007/978-981-15-8450-3_48
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DOI: https://doi.org/10.1007/978-981-15-8450-3_48
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