Litcius/Paper detail

A Fault-Tolerant SoC Estimation Method for Series–Parallel Connected Li-Ion Battery Pack

Shiyao Zhou, Ziqiang Chen, Deyang Huang, Tiantian Lin

2021IEEE Transactions on Power Electronics24 citationsDOI

Abstract

The accurate state of charge (SoC) estimator has great significance for ensuring the safety and reliability of Li-ion battery systems. However, the accurate SoC estimation for a series-parallel connected battery pack is a remaining challenge due to the strong inconsistency characteristic caused by cell open-circuit (COC) faults. Therefore, a novel fault-tolerant multimodule SoC estimation method for the series-parallel connected battery pack is proposed. An average module model is used to describe the performance of the battery pack. A bias correction model considering SoC, series resistance, and polarization characteristic inconsistency is developed to describe in-pack modules. A noise adaptive H ∞ filter-unscented H ∞ filter is employed to estimate SoC for the average module. The SoCs of in-pack modules are obtained by an optimized recursive least square method. A correlation coefficient-based method is developed to detect COC fault and isolate the fault module. Finally, several experiments on a 4s-3p battery pack are taken to evaluate and verify the real-time performance, stability, and accuracy of the proposed method. The result shows that both online and offline SoC estimation error is less than 1% for healthy modules, and it is less than 2.5% for the fault module in which one-third capacity is lost randomly.

Topics & Concepts

Battery packEstimatorState of chargeBattery (electricity)Fault toleranceVoltageFault (geology)Reliability (semiconductor)Noise (video)Control theory (sociology)Computer scienceEngineeringReliability engineeringElectrical engineeringMathematicsStatisticsPhysicsImage (mathematics)Quantum mechanicsGeologyControl (management)Artificial intelligencePower (physics)SeismologyAdvanced Battery Technologies ResearchAdvancements in Battery MaterialsAdvanced Battery Materials and Technologies