Journal
JOURNAL OF POWER SOURCES
Volume 196, Issue 10, Pages 4826-4831Publisher
ELSEVIER
DOI: 10.1016/j.jpowsour.2010.12.107
Keywords
Lithium-ion batteries; Equivalent circuit modeling; SOC; Temperature; Impedance
Funding
- National Science Foundation [EEC-08212121]
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Equivalent circuit model (EMC) of a high-power Li-ion battery that accounts for both temperature and state of charge (SOC) effects known to influence battery performance is presented. Electrochemical impedance measurements of a commercial high power Li-ion battery obtained in the temperature range 20 to 50 degrees C at various SOC values was used to develop a simple EMC which was used in combination with a non-linear least squares fitting procedure that used thirteen parameters for the analysis of the Li-ion cell. The experimental results show that the solution and charge transfer resistances decreased with increase in cell operating temperature and decreasing SOC. On the other hand. the Warburg admittance increased with increasing temperature and decreasing SOC. The developed model correlations that are capable of being used in process control algorithms are presented for the observed impedance behavior with respect to temperature and SOC effects. The predicted model parameters for the impedance elements R-s, R-ct and Y-013 show low variance of 5% when compared to the experimental data and therefore indicates a good statistical agreement of correlation model to the actual experimental values. (C) 2011 Elsevier B.V. All rights reserved.
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