电动汽车动力锂离子电池 SOC 估算方法
比较分析

doi:10.16638/j.cnki.1671-7988.2023.015.009

汽车实用技术 ›› 2023, Vol. 48 ›› Issue (15): 47-53.DOI: 10.16638/j.cnki.1671-7988.2023.015.009

• 新能源汽车 • 上一篇

电动汽车动力锂离子电池 SOC 估算方法比较分析

吴广顺，李真铁，王昊

天津内燃机研究所

出版日期:2023-08-15 发布日期:2023-08-15
通讯作者: 吴广顺
作者简介:吴广顺（1973－），男，硕士，高级工程师，研究方向为机电自动化、内燃机测试，E-mail:wgshun188@126.com。

State of Charge Estimation Comparative Analysis for Traction Li-ion Batteries in Electric Vehicle

WU Guangshun, LI Zhentie, WANG Hao

Tianjin Internal Combustion Engine Research Institute

Online:2023-08-15 Published:2023-08-15
Contact: WU Guangshun

摘要/Abstract

摘要： 由于电动汽车动力锂离子电池在使用过程中是时变、非线性的复杂电化学系统，精确评估电池荷电状态（SOC）难度很大。文章对电动汽车锂离子电池的 SOC 估算方法进行了详细综述，根据各类算法的不同特征将其分为传统方法、基于学习算法的方法和基于模型的方法，阐明了各种估算方法的特征及应用条件，对各种方法的优缺点进行了分析探讨，对将来在线估算电动汽车锂离子电池 SOC 的方法进行了展望。结果表明，基于学习算法的 SOC 估算方法将是未来的发展方向。

关键词: 电动汽车；锂离子电池；荷电状态；卡尔曼滤波

Abstract: Because the lithium-ion battery of electric vehicles is a time-varying and nonlinear complex electrochemical system during use, it is difficult to accurately evaluate state of charge (SOC). In this paper, SOC estimation methods for lithium-ion batteries of electric vehicles are reviewed in detail, according to the different characteristics of various algorithms, they are divided into traditional methods, learning algorithm-based methods and model-based methods, the characteristics and application conditions of various estimation methods are expounded, and the advantages and disadvantages of each method are analyzed and discussed, and the future online SOC estimation methods for lithium-ion batteries of electric vehicles are prospected. The results show that the SOC estimation method based on learning algorithm will be the future development direction.

Key words: Electric vehicles; Lithium-ion battery; State of charge; Kalman filter

吴广顺. 电动汽车动力锂离子电池 SOC 估算方法比较分析[J]. 汽车实用技术, 2023, 48(15): 47-53.

WU Guangshun. State of Charge Estimation Comparative Analysis for Traction Li-ion Batteries in Electric Vehicle[J]. Automobile Applied Technology, 2023, 48(15): 47-53.

参考文献

[ 1 ] WANG Y J,TIAN J Q,SUN Z D,et al.A Comprehensive Review of Battery Modeling and State Estimation Approaches for Advanced Battery Management Systems[J].Renewable and Sustainable Energy Reviews, 2020,131(C)110015. [ 2 ] NG K S,MOO C S,CHEN Y P,et al.Enhanced Coulomb Counting Method for Estimating State-of-charge and State-of-health of Lithiumion Batteries[J].Applied Energy,2009,86(9):1506-1511. [ 3 ] BARAI A,WIDANAGE W D,MARCO J,et al.A Study of the Open Circuit Voltage Characterization Technique and Hysteresis Assessment of Lithium-ion Cells[J].Journal of Power Sources,2015(1):99-107. [ 4 ] ROSCHER M A,SAUER D U.Dynamic Electric Behavior and Open-circuit-voltage Modeling of LiFePO4 Based Lithium-ion Secondary Batteries[J].Journal of Power Sources,2011,196(1):331-336. [ 5 ] CHANG C,WANG S J,JIANG J C,et al.An Improvement of Equivalent Circuit Model for State of Health Estimation of Lithium-ion Batteries Based on Midfrequency and Low-frequency Electrochemical Impedance Spectroscopy[J].Measirement,2022(2):11795. [ 6 ] WESTERHOFF U,KROKER T,KURBACH K,et al. Electrochemical Impedance Spectroscopy Based Estimation of the State of Charge of Lithium-ion Batteries[J].Journal of Energy Storage,2016(8):244- 256. [ 7 ] EDDAHECH A,BRIAT O,VINASSA J M.Adaptive Voltage Estimation for EV Li-ion Cell Based on Artificial Neural Networks State-of-charge Meter [C]//IEEE International Symposium on Industrial Electronics.Piscataway:IEEE, 2012:1318-1324. [ 8 ] DAI H,GUO P,WEI X,et al.ANFIS (Adaptive Neurofuzzy Inference System) Based Online SOC (State of Charge) Correction Considering Cell Divergence for the EV (Electric Vehicle) Traction Batteries[J].Energy, 2015,80(11):350-360. [ 9 ] ANTON J C A,NIETO P J G,JUEZ F J D C,et al. Battery State-of-charge Estimator Using the SVM Technique[J].Applied Mathematical Modelling,2013, 37(9):6244-6253. [10] YANG F F,SONG X B,XU F,et al.State-of-charge Estimation of Lithium-ion Batteries via Long Shortterm Memory Network[J].IEEE Access,2019(7):53792- 53799. [11] DEYU C,BIZHONG X,RUIFENG Z,et al.A Novel Intelligent Method for the State of Charge Estimation of Lithium-ion Batteries Using a Discrete Wavelet Transform-based Wavelet Neural Network[J].Energies 2018,11(4):995. [12] DONG G,ZHANG X,ZHANG C,et al.A Method for State of Energy Estimation of Lithium-ion Batteries Based on Neural Network Model[J].Energy,2015,90 (1):879-888. [13] SHEN W X,CHAN C C,LO E W C,et al.Adaptive Neuro-fuzzy Modeling of Battery Residual Capacity for Electric Vehicles[J].IEEE Transactions Industrial Electronics,2002,49(3):677-684. [14] FOTOUHI A,PROPP K,AUGER D J.Electric Vehicle Battery Model Identification and State of Charge Estimation in Real World Driving Cycles[C]//2015 7th Computer Science and Electronic Engineering Conference (CEEC).Piscataway:IEEE,2015:24-25. [15] HALABI L M,MEKHILEF S,HOSSAIN M.Perfor-mance Evaluation of Hybrid Adaptive Neuro-fuzzy Inference System Models for Predicting Monthly Global Solar Radiation[J].Applied Energy,2018,213: (1)247-261. [16] JALVAREZ ANTON J C,GARCIA NIETO P J, BLANCO VIEJO C,et al.Support Vector Machines Used to Estimate the Battery State of Charge[J].IEEE Transactions on Power Electronics,2013,28(12):5919-5926. [17] HU J N,HU J J,LIN H B,et al.State-of-charge Estimation for Battery Management System Using Optimized Support Vector Machine for Regression[J].Journal of Power Sources,2014,26(10):682-693. [18] SHRIVASTAVA P,SOON T K,IDRIS M Y I B,et al. Overview of Model-based Online State-of-charge Estimation Using Kalman Filter Family for Lithiumion Batteries[J].Renewable and Sustainable Energy Reviews,2019,11(C):109233. [19] 焦振.基于扩展卡尔曼滤波的锂离子电池 SOC 估算研究[D].西安:长安大学,2021. [20] LIU X,LI K,WU J,et al.An Extended Kalman Filter Based Data-driven Method for State of Charge Estimation of Li-ion Batteries[J].Journal of Energy Storage,2021,40(8):102655. [21] LIU Y,HUANG F Y,MA R,et al.State of Charge Estimation of Lithium-ion Batteries Electrochemical Model with Extended Kalman Filter[C]//2019 IEEE Industry Applications Society Annual Meeting.Piscataway:IEEE,2019:1-7. [22] ZHANG Z,JIANG L,ZHANG L,et al.State-of-charge Estimation of Lithium-ion Battery Pack by Using an Adaptive Extended Kalman Filter for Electric Vehicles[J].Journal of Energy Storage,2021,37(5)102457. [23] 李嘉波,魏孟,李忠玉,等.基于自适应扩展卡尔曼滤波的锂离子电池荷电状态估计[J].储能科学与技术, 2020,9(4):1147-1152. [24] ZHANG Z L,CHENG X,LU Z Y,et al.SOC Estimation of Lithium-ion Batteries with AEKF and Wavelet Transform Matrix[J].IEEE Transaction on Power Electronics,2016,32(10):7626-7634. [25] SHEN Y Q.Adaptive Extended Kalman Filter Based State of Charge Determination for Lithium-ion Batteries[J].Electrochimica Acta,2018(7):1432-1440. [26] CHEN Z,YANG L,ZHAO X,et al.Online State of Charge Estimation of Li-ion Battery Based on an Improved Unscented Kalman Filter Approach[J].Applied Mathematical Modelling,2019,70(6):532-544. [27] HE H W,XIONG R,PENG J K,et al.Real-time Estimation of Battery State-of-charge with Unscented Kalman Filter and RTOS μCOS-II Platform[J].Applied Energy,2016,16(12):1410-1418. [28] HUANG C,WANG Z,ZHAO Z,et al.Robustness Evaluation of Extended and Unscented Kalman Filter for Battery State of Charge Estimation[J].IEEE Access, 2018(6):27617-27628. [29] WANG S,FERNANDEZ C,YU C,et al.A Novel Charged State Prediction Method of the Lithiumion Battery Packs Based on the Composite Equivalent Modeling and Improved Splice Kalman Filtering Algorithm[J]. Journal of Power Sources,2020(30):228450.

电动汽车动力锂离子电池 SOC 估算方法比较分析

State of Charge Estimation Comparative Analysis for Traction Li-ion Batteries in Electric Vehicle

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 0

编辑推荐

Metrics

电动汽车动力锂离子电池 SOC 估算方法 比较分析

State of Charge Estimation Comparative Analysis for Traction Li-ion Batteries in Electric Vehicle

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 0

编辑推荐

Metrics

电动汽车动力锂离子电池 SOC 估算方法比较分析