Lifespan Assessment of Li-ion Batteries Considering Time Dependent Stress Patterns
Pages 2288 - 2292
Abstract
Li-ion batteries are widely used in most portable devices. Even if you use the same product, the battery lifespan varies greatly depending on the environment or usage patterns. ‘End of Life’ predictions are important for safe use and performance protection of the product, and they are typically pre-calculated through acceleration testing. However, the battery reacts differently to the same stress depending on state of health (SOH). In this paper, we propose an improved accelerated life testing (ALT) using sequential method considering time dependent stress patterns.
References
[1]
N. Zaman, F.A. Almusalli, Review: smartphones power consumption & energy saving techniques, in: 2017 Int. Conf. Innov. Electr. Eng. Comput. Technol, IEEE, pp. 1–7, 2017.
[2]
Weixiang Shen, Thanh Tu Vo and A. Kapoor, “Charging algorithms of lithium-ion batteries: An overview,” 2012 7th IEEE Conference on Industrial Electronics and Applications (ICIEA), pp. 1567–1572, 2012.
[3]
Dawn An, Joo Ho Choi, “Remaining Useful Life Prediction of Li-Ion Battery Based on Charge Voltage Characteristics”, Article in Transactions of the Korean Society of Mechanical Engineers, pp. 313–322, 2013.
[4]
S.S. Zhang, K. Xu, T.R. Jow, “EIS study on the formation of solid electrolyte interface in Li-ion battery”, Electrochimica Acta51, pp. 1636–1640, 2006.
[5]
Yemeserach Mekonnen, Haneen Aburbu, Arif Sarwat, “Life cycle prediction of Sealed Lead Acid batteries based on a Weibull model”, Journal of Energy Storage, Volume 18, pp. 467–475, 2018.
[6]
Seong Jin An, Ji Yong Park, Jaehee Song, Jaeyeon Lee, Gil Ho Kim, Jongmoon Yoon, Bookeun Oh “A fast method for evaluating stability of lithium ion batteries at high C-rates”, Journal of Power Sources, Volume 480, 228856, Dec. 2020.
[7]
P. Arora, R. E. White, and M. Doyle, “Capacity fade mechanisms and side, reactions in lithium-ion batteries,” Journal of the Electrochemical Society, Vol. 145, No. 10, pp. 3647–3667. Oct. 1998.
[8]
A. Millner, “Modeling Lithium Ion battery degradation in electric vehicles,” Proc. IEEE Conf. Innov. Technol. Efficient Rel. Electr. Supply, pp. 349–356, Nov. 2010.
[9]
Hao Jiaa, Hitoshi Onishib, Natascha von Aspernc, Uta Rodehorsta, Katharina Rudolf, “A propylene carbonate based gel polymer electrolyte for extended cycle life and improved safety performance of lithium ion batteries”, Journal of Power Sources397 pp. 343–351, 2018.
[10]
Jishi Zhao, Li Wang, Xiangming He, Chunrong Wan, Changyin Jiang, “Kinetic Investigation of LiCoO2 by Electrochemical Impedance Spectroscopy (EIS)”, Int. J. Electrochem. Sci., 5, pp. 478–488, 2011.
[11]
Xing Zhoua, C, Jun Huangb, Zhengqiang Pana, Minggao Ouyangc, “Impedance characterization of lithium-ion batteries aging under high temperature cycling: Importance of electrolyte-phase diffusion” Journal of Power Sources 426, pp 216–222, 2019.
[12]
M. M. Kabir, Dervis Emre Demirocak “Degradation mechanisms in Li-ion batteries: a state-of-the-art review” International Journal of Energy Research, 2017.
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Oct 2021
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IEEE Press
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Published: 31 October 2021
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