基于一致性算法的锂电池组内单体锂电池SOH主动均衡方案

吴青峰<sup>1</sup>; 杨凯义<sup>1</sup>; 刘立群<sup>1</sup>; 朱彦军<sup>1</sup>; 薄利明<sup>2</sup>; 杨杰豹<sup>3</sup>

引用本文:	吴青峰,杨凯义,刘立群,等.基于一致性算法的锂电池组内单体锂电池SOH主动均衡方案[J].电力系统保护与控制,2025,53(05):145-155.[点击复制]
	WU Qingfeng,YANG Kaiyi,LIU Liqun,et al.An active SOH balancing scheme based on a consensus algorithm for individual lithium-ion cells in a battery packs[J].Power System Protection and Control,2025,53(05):145-155[点击复制]

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基于一致性算法的锂电池组内单体锂电池SOH主动均衡方案
吴青峰¹,杨凯义¹,刘立群¹,朱彦军¹,薄利明²,杨杰豹³
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(1.太原科技大学电子信息工程学院，山西太原 030024;2.国网山西省电力公司电力科学研究院，山西太原 030001; 3.山西工程技术学院电气与控制工程系, 山西阳泉 045000)

摘要:

针对现存锂电池组内串联单体锂电池健康状态(state of health, SOH)均衡方案需要集中控制器和全局通信、系统建设成本居高不下等问题，提出一种基于一致性算法的锂电池组内单体锂电池SOH主动均衡方案。分析了SOH参数、放电深度(depth of discharge, DOD)和有功功率三者之间的内在联系，设计了有功功率分配和控制算法切换法则。利用一致性算法求解DOD平均值，以达到在无需集中控制器和减少通信信号数量的前提下，实现锂电池组内单体锂电池SOH均衡的控制目标，提高锂电池容量利用率，降低锂电池维护成本。最后，Matlab/Simulink仿真结果说明，所提方案在负荷变化、通信中断、锂电池块数增加和DOD出现测量误差的情况下，均能使锂电池组内串联单体锂电池SOH自均衡。

关键词: 锂电池功率控制主动均衡健康状态放电深度一致性算法

DOI：10.19783/j.cnki.pspc.240619

投稿时间：2024-05-19修订日期：2024-08-05

基金项目:山西省基础研究技术面上项目资助(202203021221153)；阳泉市应用基础研究计划项目资助(2022JH059)

An active SOH balancing scheme based on a consensus algorithm for individual lithium-ion cells in a battery packs

WU Qingfeng¹,YANG Kaiyi¹,LIU Liqun¹,ZHU Yanjun¹,ZHU Yanjun²,BO Liming³

(1. College of Electronic Information Engineering, Taiyuan University of Science and Technology, Taiyuan 030024, China; 2. Electric Power Research Institute of State Grid Shanxi Electric Power Company, Taiyuan 030001, China; 3. Department of Electrical and Control Engineering, Shanxi University of Engineering and Technology, Yangquan 045000, China)

Abstract:

To address the limitations of existing state of health (SOH) balancing strategies for series-connected lithium-ion cells, such as the need for a centralized controller, extensive global communication, and high system costs, this paper proposes an active SOH balancing strategy based on a consensus algorithm. The intrinsic relationship among SOH parameters, depth of discharge (DOD), and active power is analyzed, and an active power allocation and control algorithm switching rules are designed. A consensus algorithm is used to solve the average value of DOD, achieving SOH balancing without requiring a centralized controller and reducing communication signal requirements. This approach enhances battery capacity utilization efficiency and lowers maintenance costs. Finally, Matlab/Simulink simulations demonstrate that the proposed scheme can achieve self-balancing of SOH within a series-connected lithium-ion battery pack, even with load variations, communication interruptions, increasing number of battery cells, and DOD measurement errors.

Key words: lithium-ion battery power control active balancing state of health depth of discharge consensus algorithm

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