Improved flux linkage observer for position estimation of permanent magnet synchronous linear motor

Yu, Wenbin; Yang, Guolai; Wang, Liqun; Lin, Darui; Al-Zahrani, Ahmed

With the development of motor technology, sensorless control attracts more and more attention. In this paper, an improved flux linkage observer is proposed to overcome issues including inaccurate initial positions and sampling noise. The voltage and current models are combined, and a sliding-mode observer is designed based on the hybrid model to obtain the compensation voltage. Therefore, the estimated flux linkage after compensation can greatly resist the influence caused by inaccurate initial positions or sampling noise. Phase-locked loop technology is used to process the estimated flux linkage to get the stable estimated speed and position. The proposed scheme has a simple structure and only one parameter. It is easy to use and adjust in practice. The simulation and experimental results verify that the proposed algorithm is effective, and the estimated flux linkage and position is accurate with an inaccurate initial position.

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Yu, Wenbin / Yang, Guolai / Wang, Liqun / et al: Improved flux linkage observer for position estimation of permanent magnet synchronous linear motor. 2024. Copernicus Publications.

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