Article: Fast position tracking control of PMSM under high frequency and variable load Journal: International Journal of Computer Applications in Technology (IJCAT) 2021 Vol.67 No.2/3 pp.214 - 223 Abstract: Based on the force and deflection characteristics of the rudder of supercavitating vehicle, this paper presents a motor control problem: 'Fast position Tracking control of PMSM Under High Frequency and variable Load' (simplified as 'FTUHFL'). However, 'Traditional PID' (simplified as 'TPID') position tracker cannot solve the 'FTUHFL' problem very well, its position tracking effect is poor. In order to solve the 'FTUHFL' problem and improve the position tracking effect of PMSM, this paper, based on the 'TPID' position tracker, proposes the 'Traditional PID + Speed Fuzzy Feedforward Compensation + Current Feedforward Compensation' (simplified as 'TPID + SFFC + CFC') position tracker. Firstly, the design method of 'SFFC' and 'CFC' feedforward controllers is given. Then theoretical analysis shows that the stability will not be changed after introducing 'SFFC' and 'CFC' on the basis of 'TPID'. Finally, the effectiveness of the proposed 'TPID + SFFC + CFC' position tracker in solving the 'FTUHFL' problem is further verified by simulation experiments. Compared with 'TPID', 'TPID + SFFC + CFC' position tracker has better response speed, position tracking accuracy and anti-load-disturbance performance. Inderscience Publishers - linking academia, business and industry through research

Title: Fast position tracking control of PMSM under high frequency and variable load

Authors: Jiafeng Zhang; Jinghua Wang; Yang Liu

Addresses: College of Mechanical and Electric Engineering, Changchun University of Science and Technology, Changchun 130022, Jilin, China ' College of Mechanical and Electric Engineering, Changchun University of Science and Technology, Changchun 130022, Jilin, China; Ministry of Education Key Laboratory for CrossScale Micro and Nano Manufacturing, College of Mechanical and Electric Engineering, Changchun University of Science and Technology, Changchun 130022, Jilin, China ' College of Mechanical and Electric Engineering, Changchun University of Science and Technology, Changchun 130022, Jilin, China

Abstract: Based on the force and deflection characteristics of the rudder of supercavitating vehicle, this paper presents a motor control problem: 'Fast position Tracking control of PMSM Under High Frequency and variable Load' (simplified as 'FTUHFL'). However, 'Traditional PID' (simplified as 'TPID') position tracker cannot solve the 'FTUHFL' problem very well, its position tracking effect is poor. In order to solve the 'FTUHFL' problem and improve the position tracking effect of PMSM, this paper, based on the 'TPID' position tracker, proposes the 'Traditional PID + Speed Fuzzy Feedforward Compensation + Current Feedforward Compensation' (simplified as 'TPID + SFFC + CFC') position tracker. Firstly, the design method of 'SFFC' and 'CFC' feedforward controllers is given. Then theoretical analysis shows that the stability will not be changed after introducing 'SFFC' and 'CFC' on the basis of 'TPID'. Finally, the effectiveness of the proposed 'TPID + SFFC + CFC' position tracker in solving the 'FTUHFL' problem is further verified by simulation experiments. Compared with 'TPID', 'TPID + SFFC + CFC' position tracker has better response speed, position tracking accuracy and anti-load-disturbance performance.

Keywords: permanent magnet synchronous motor; high frequency variable load; fast position tracking; fuzzy feedforward compensation; load observer.

DOI: 10.1504/IJCAT.2021.121536

International Journal of Computer Applications in Technology, 2021 Vol.67 No.2/3, pp.214 - 223

Received: 30 Oct 2020
Accepted: 14 Jan 2021
Published online: 17 Mar 2022 *

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Title: Fast position tracking control of PMSM under high frequency and variable load

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