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Fault Diagnosis for Lithium-Ion Battery Pack Based on Relative Entropy and State of Charge Estimation

Tian‐E Fan, Fan Chen, Haoran Lei, Xin Tang, Fei Feng

2024Batteries12 citationsDOIOpen Access PDF

Abstract

Timely and accurate fault diagnosis for a lithium-ion battery pack is critical to ensure its safety. However, the early fault of a battery pack is difficult to detect because of its unobvious fault effect and nonlinear time-varying characteristics. In this paper, a fault diagnosis method based on relative entropy and state of charge (SOC) estimation is proposed to detect fault in lithium-ion batteries. First, the relative entropies of the voltage, temperature and SOC of battery cells are calculated by using a sliding window, and the cumulative sum (CUSUM) test is adopted to achieve fault diagnosis and isolation. Second, the SOC estimation of the short-circuit cell is obtained, and the short-circuit resistance is estimated for a quantitative analysis of the short-circuit fault. Furthermore, the effectiveness of our method is validated by multiple fault tests in a thermally coupled electrochemical battery model. The results show that the proposed method can accurately detect different types of faults and evaluate the short-circuit fault degree by resistance estimation. The voltage/temperature sensor fault is detected at 71 s/58 s after faults have occurred, and a short-circuit fault is diagnosed at 111 s after the fault. In addition, the standard error deviation of short-circuit resistance estimation is less than 0.12 Ω/0.33 Ω for a 5 Ω/10 Ω short-circuit resistor.

Topics & Concepts

State of chargeIonFault (geology)Battery (electricity)Lithium (medication)State (computer science)Computer scienceLithium-ion batteryMaterials scienceReliability engineeringThermodynamicsAlgorithmChemistryEngineeringPhysicsMedicineOrganic chemistryEndocrinologyGeologySeismologyPower (physics)Advanced Battery Technologies ResearchFault Detection and Control SystemsEmbedded Systems and FPGA Design
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