Abstract
To maximize the driving range of electric vehicles, battery imbalance is the primary factor that hinders the full utilization of battery pack capacity. This article is based on a four-switch reconfigurable topology, which can flexibly connect, bypass, and parallel any battery cell within the module, and can maintain low voltage fluctuations without the need for a DC-DC converter. Based on this topology, a hierarchical equilibrium strategy combining inter-module K-means clustering analysis and intra-module splitting and recombination is proposed. This strategy can achieve full cell balance, thereby ensuring the maximum capacity utilization of the battery pack. The topology structure composed of 8 batteries was validated, and the experimental results confirmed that the proposed hierarchical balancing strategy supported by the reconfigurable topology increased the capacity utilization of the battery pack by 15.93%, and the maximum fluctuation rate of the battery pack terminal voltage was 0.9%.
Funder
National Natural Science Foundation of China
Publisher
Public Library of Science (PLoS)
Reference19 articles.
1. Research review on reconfigurable battery technology[J].;Huang Xue;Mechanical Manufacturing and Automation,2019
2. Optimal energy management strategy for self-reconfigurable batteries[A].;N. Bouchhima;ENERGY,2017
3. Research on active equalization of power battery pack based on SOC[J];Liu Chunhui;Energy Storage Science and Technology,2022
4. A review of equalization topologies for series-connected lithium-ion battery packs[J];Cai Minyi;Chinese Journal of Electrical Engineering,2021