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PIER PIER B PIER C PIER M PIER Letters
2023-08-13
Improved Non-Singular Fast Terminal Sensor-Less Sliding Mode Control of IPMSM Considering External Disturbance and Parameter Perturbation
By
Xiangfei Li,

    Dr. Xiangfei Li

    College of Electrical and Information Engineering

    Hunan University of Technology

    China

    Homepage

Junqin Liu,

    Mr. Junqin Liu

    College of Electrical and Information Engineering

    Hunan University of Technology

    China

    Homepage

Kaihui Zhao,

    Dr. Kaihui Zhao

    College of Electrical and Information Engineering

    Hunan University of Technology

    China

    Homepage

Yang Yin,

    Dr. Yang Yin

    College of Electrical and Information Engineering

    Hunan University of Technology

    China

    Homepage

Lihua Zou

    Dr. Lihua Zou

    College of Electrical and Information Engineering

    Hunan University of Technology

    China

    Homepage

Progress In Electromagnetics Research B, Vol. 102, 81-98, 2023
doi:10.2528/PIERB23050202
Abstract
A new non-singular fast terminal Sensor-less sliding mode control algorithm (INFTSMC) for IPMSM based on an improved extended sliding mode disturbance observer (IESMDO) is constructed to address the problem of degraded control performance of IPMSM because of uncertainties. Firstly, a mathematical model of IPMSM under parametric ingestion is developed, and a new control law for the speed loop is designed. Then, an improved non-singular fast terminal sliding mode speed controller (INFTSMC) based on a novel extended sliding mode disturbance observer (IESMDO) is designed, where an improved super-twisting control law is designed to speed up convergence, while IESMDO can accurately observe the unknown perturbed part F of the system in real-time relative to the sliding mode disturbance observer (SMO). Finally, high-order square root cubature Kalman-filter (CKF) combined with an adaptive estimator is proposed to accurately estimate the speed and rotor position of the motor in real-time. Through simulations and semi-physical experiments with PI and traditional NFTSMC, it is verified that the algorithm has better transient steady-state performance when external disturbances and parameter perturbation are added externally to the motor, which is conducive to improve the control effect of IPMSM.
Citation
Xiangfei Li, Junqin Liu, Kaihui Zhao, Yang Yin, and Lihua Zou, "Improved Non-Singular Fast Terminal Sensor-Less Sliding Mode Control of IPMSM Considering External Disturbance and Parameter Perturbation," Progress In Electromagnetics Research B, Vol. 102, 81-98, 2023.
doi:10.2528/PIERB23050202
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