The novel methods of insulation detection based on Adaptive Levenberg–Marquardt algorithm and Third-Order Variable Forgetting Factor Recursive Least Squares-Decouple algorithm

• Published in: Energy (Oxford) Vol. 312; p. 133598
• Main Authors: Ruan, Dong, Cui, Xiangyu, He, Zhicheng, Gao, Hui
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 15.12.2024
• Subjects: Electric vehicle(EV); Insulation detection; Levenberg–Marquardt; SRCKF; Variable forgetting factor recursive least squares; SRCKF; Electric vehicle(EV); Levenberg–Marquardt; Insulation detection; Variable forgetting factor recursive least squares
• ISSN: 0360-5442
• DOI: 10.1016/j.energy.2024.133598

Electric vehicles (EVs) are central to the future of automotive development, with high-voltage insulation performance critical for operational safety. Existing insulation detection methods face challenges such as limited scope, low accuracy, poor interference resistance, and slow response. This study introduces two insulation detection models based on the unbalanced bridge method and low-frequency signal injection, analyzing their theoretical effectiveness and confirming superior detection capability in the unbalanced bridge method. Furthermore, to address feedback voltage waveform issues in this method, an adaptive Levenberg–Marquardt (ALM) algorithm is proposed to prevent the divergence typically seen in traditional approaches. Additionally, a decoupling algorithm utilizing a Third-order Variable Forgetting Factor Recursive Least Squares (TVFF-Decouple) simplifies algorithm complexity significantly while enabling anomaly detection. Finally, AEKF and SRCKF algorithms were used for observation, identifying an optimal combination that reduces noise interference effectively. Simulations and bench tests demonstrate that the proposed methods swiftly and accurately detect positive and negative insulation resistances and equivalent Y capacitance under various conditions. •TVFF-Decouple aims to achieve model anomaly detection and parameter decoupling.•Adaptive Levenberg–Marquardt aims to prevent divergence in parameter identification.•Use SRCKF for real-time insulation resistance monitoring and disturbance reduction.