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Battery hysteresis compensation modeling and state-of-charge estimation adaptive to time-varying ambient temperature conditions.

Shi, Haotian; Wang, Shunli; Fernandez, Carlos; Huang, Junhan; Xu, Wenhua; Wang, Liping

Authors

Haotian Shi

Shunli Wang

Junhan Huang

Wenhua Xu

Liping Wang



Abstract

Temperature and cell hysteretic effects are two major factors that influence the reliability and safety in long-term management of battery-integrated systems. In this paper, a hysteresis-compensated electrical characteristic model is established to track the terminal voltage of batteries with the uncertain hysteretic effect of the open-circuit voltage. Then, an autoregressive exogenous model with multi-feature coupling is employed for the identification of the parameters to make them adaptive to the uncertainties of the temperature and hysteretic effects. After that, a novel method for state-of-charge (SOC) estimation based on an adaptive moving window-square root unscented Kalman filter is constructed to avoid the filtering divergence problem caused by the negative error covariance matrix. Multiple constraints, such as Coulombic efficiency, varying ambient temperatures, and hysteresis voltage, are considered for the SOC estimation. Experimental results show that the root-mean-square error for SOC calculation can be limited to 0.0211 when the temperature varied up to 40°C and the root-mean-square error of the voltage measurement noise up to 61.9 mV. The proposed method provides an effective way for battery-integrated management of electric vehicles.

Citation

SHI, H., WANG, S., FERNANDEZ, C., HUANG, J., XU, W. and WANG, L. 2022. Battery hysteresis compensation modeling and state-of-charge estimation adaptive to time-varying ambient temperature conditions. International journal of energy research [online], 46(12), pages 17096-17112. Available from: https://doi.org/10.1002/er.8373

Journal Article Type Article
Acceptance Date Jun 29, 2022
Online Publication Date Jul 13, 2022
Publication Date Oct 10, 2022
Deposit Date Aug 9, 2022
Publicly Available Date Jul 14, 2023
Journal International journal of energy research
Print ISSN 0363-907X
Electronic ISSN 1099-114X
Publisher Wiley
Peer Reviewed Peer Reviewed
Volume 46
Issue 12
Pages 17096-17112
DOI https://doi.org/10.1002/er.8373
Keywords Adaptive moving window-square root unscented Kalman filter; Adaptive noise matching; Hysteresis-compensated modeling; Lithium-ion battery; State-of-charge
Public URL https://rgu-repository.worktribe.com/output/1716580

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