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Electrochemical impedance correlation analysis for the estimation of Li-ion battery state of charge, state of health and internal temperature

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posted on 2024-06-14, 11:24 authored by Kieran Mc Carthy, Hemtej Gullapalli, Kevin M. RyanKevin M. Ryan, Tadhg KennedyTadhg Kennedy

Electrochemical impedance spectroscopy (EIS) is an effective characterization tool for a multitude of battery states including state of charge (SoC), state of health (SoH) and internal temperature (IT). The intrinsic relationship between equivalent circuit elements and components of an impedance spectra (frequency, real, imaginary and phase) could be exploited to estimate the battery state at a given point of time without the need of continuous historical tracking information. Identification and analysis of battery state sensitive impedance variables is paramount for the development of any impedance-based battery management system (BMS). In this paper, correlation analysis between equivalent circuit elements and impedance spectra of multiple commercial Li-ion polymer batteries at varying SoC, SoH and IT levels was performed to identify and quantify the degree of dependence. Curve fitting techniques were used to fit the measured Impedance spectra on to an equivalent circuit model (ECM) to extract the circuit elements. Pearson's r correlation matrix was employed for quantifying the degree of correlation between each impedance variable and state parameter. Optimal impedance variables that demonstrated high dependence with SoC, SoH and IT are then proposed in this paper. Knowledge of this information is of high value to develop a direct impedance-based state estimation models for real time battery management systems.

Funding

MAREI_Phase 2

Science Foundation Ireland

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NEILLSBAT - Nanostructured Electrodes and Ionic Liquid Electrolytes for Ultra High Energy Density Lithium Sulfur Batteries

Science Foundation Ireland

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Silicon Alloying Anodes for High Energy Density Batteries comprising Lithium Rich Cathodes and Safe Ionic Liquid based Electrolytes for Enhanced High VoltagE Performance.

European Commission

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AMBER_Phase 2

Science Foundation Ireland

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Confirm Centre for Smart Manufacturing

Science Foundation Ireland

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History

Publication

Journal of Energy Storage, 2022, 50,104608

Publisher

Elsevier

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  • Bernal Institute

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  • Chemical Sciences

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