EIS Measurements for Determining the SoC and SoH of Li-ion Batteries

机译：EIS测量，用于确定锂离子电池的SoC和SoH

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In the framework of the ALIDISSI project of the Stock-E program funded by the French Research National Agency (ANR), electrochemical impedance spectroscopy (EIS) has been used as a non intrusive tool to perform in-situ diagnosis of batteries for applications dedicated to hybrid electric vehicles and grid-connected photovoltaic solar energy. EIS measurements were performed on 3-electrode coffee bag Li-ion cells during cycling with the aim of identifying the ageing mechanisms in these applications and determining impedance parameters related to the State-of-Charge (SoC) and State-of-Health (SoH) of the cells. EIS diagrams were modeled with electric equivalent circuits and, using an automatic spectra treatment, SoC and SoH prediction algorithms based on a multivariate mathematical analysis were obtained. They give a 10% SoC error on commercial LiFePO_4/graphite cells and a 7% SoH error on LiFePO_4/Li_4Ti_5O_(12) cells with EIS measurements performed at 20°C.

机译：在法国国家研究局（ANR）资助的Stock-E计划ALIDISSI项目的框架中，电化学阻抗谱（EIS）已被用作非侵入性工具，可对专用于以下用途的应用进行电池原位诊断混合动力电动汽车和并网光伏太阳能。 EIS测量是在循环过程中对3电极咖啡袋锂离子电池进行的，目的是确定这些应用中的老化机制并确定与充电状态（SoC）和健康状态（SoH）相关的阻抗参数）的单元格。 EIS图用等效电路建模，并使用自动频谱处理，获得了基于多元数学分析的SoC和SoH预测算法。在20°C下进行EIS测量时，它们在商用LiFePO_4 /石墨电池上的SoC误差为10％，在LiFePO_4 / Li_4Ti_5O_（12）电池上的SOH误差为7％。

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《Meeting of the Electrochemical Society;Symposium on battery/energy technology joint general session》|2011年|p.41-53|共13页
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R. Mingant; J. Bernard; V. Sauvant-Moynot; A. Delaille; S. Mailley; J.-L. Hognon; F. Huet;
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中图分类化学电源、电池、燃料电池;
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1. Comparison between RLS-GA and RLS-PSO for Li-ion battery SOC and SOH estimation: a simulation study [J] . Latif Rozaqi, Estiko Rijanto, Stratis Kanarachos Journal of Mechatronics, Electrical Power, and Vehicular Technology . 2017,第1期

机译：锂离子电池SOC和SOH估算的RLS-GA和RLS-PSO的比较：仿真研究
2. AUDISSI, a Research Program to Evaluate Electrochemical Impedance Spectroscopy as a SoC and SoH Diagnosis Tool for Li-ion Batteries [J] . V. Sauvant-Moynot, J. Bernard, R. Mingant Oil & gas science and technology . 2010,第1期

机译：AUDISSI，一项评估电化学阻抗谱的研究计划，可作为锂离子电池的SoC和SoH诊断工具
3. ALIDISSI, a Research Program to Evaluate Electrochemical Impedance Spectroscopy as a SoC and SoH Diagnosis Tool for Li-ion Batteries [J] . V. Sauvant-Moynot, J. Bernard, R. Mingant, Oil & gas science and technology . 2010,第1期

机译：ALIDISSI，一项评估电化学阻抗谱的研究计划，可作为锂离子电池的SoC和SoH诊断工具
4. EIS Measurements for Determining the SoC and SoH of Li-ion Batteries [C] . R. Mingant, J. Bernard, V. Sauvant-Moynot, ECS Meeting . 2011

机译：EIS测量，用于确定锂离子电池的SOC和SOH
5. Online Adaptive Battery Parameters Identification, and State of Charge (SOC) and State of Health (SOH) Co-Estimation. [D] . Rahimi-Eichi, Habiballah. 2014

机译：在线自适应电池参数识别，充电状态（SOC）和健康状态（SOH）协同估计。
6. Synthesis of Ionic Liquid Based Electrolytes Assembly of Li-ion Batteries and Measurements of Performance at High Temperature [O] . Xinrong Lin, Jennifer Chapman Varela, Mark W. Grinstaff 2016

机译：离子液体基电解质的合成锂离子电池的组装以及高温下的性能测量
7. Comparison Between RLS-GA and RLS-PSO for Li-ion Battery SOC and SOH Estimation: a Simulation Study [O] . Rozaqi, Latif, Rijanto, Estiko, Kanarachos, Stratis 2017

机译：锂离子电池SOC和SOH估算的RLS-GA和RLS-PSO比较：仿真研究

EIS Measurements for Determining the SoC and SoH of Li-ion Batteries

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