Journal
JOURNAL OF ENERGY STORAGE
Volume 52, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.est.2022.104748
Keywords
Lithium-ion battery; Battery safety; Internal short circuit
Categories
Funding
- National Natural Science Foundation of China [51977007, 61633015, 52007006]
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A novel on-board Al-Cu ISC detection method free from dependence on voltage sampling frequency is proposed, which extracts and converts signals to continuously indicate the occurrence of Al-Cu ISC.
Spontaneous battery internal short circuit (ISC) is recognized as a major cause of lithium-ion batteries thermal runaway (TR). Multiple ISC detection methods have been developed to guarantee the secure application of lithium-ion batteries. However, conventional methods are invalid for the Al-Cu ISC, a distinctive case in all the possible ISC scenarios, because the voltage sampling frequency of battery management system (BMS) is insufficient to detect its transient voltage drop-recovery signals. Considering the difficulty in increasing the voltage sampling frequency of the BMS, a novel on-board Al-Cu ISC detection method free from dependence on voltage sampling frequency is proposed in this paper. Specifically, a novel perspective for the ISC detection is proposed that battery voltage will present quite different transient characteristics in the ISC processes and normal operations resulting from different battery load inductances. On this basis, an on-board signal processing based detection method is proposed with an idea of extracting and converting the Al-Cu ISC signals into a steady digital signal by an ingeniously designed circuit so that the occurrence of the Al-Cu ISC can be continuously indicated. Verification results show the proposed method has outstanding reliability and detection performance, and is promising to be implemented in practice.
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