Jing-Wei Tang, De-Fu Zhang, and Si-Si Yang


  1. [1] H. Ahn, H. Park, C. Kim, and H. Lee, A review of state-of-the-art techniques for PMSM parameter identification, Journal ofElectrical Engineering & Technology, 15, 2020, 1177–1187.
  2. [2] H. Kim, J. Son, and J. Lee, A high-speed sliding-mode observerfor the sensorless speed control of a PMSM, IEEE Transactionson Industrial Electronics, 58(9), 2010, 4069–4077.
  3. [3] H.T. Moon, H.-S. Kim, and M.-J. Youn, A discrete-timepredictive current control for PMSM, IEEE Transactions onPower Electronics, 18(1), 2003, 464–472.
  4. [4] L. Zhang, R. Tao, Z.-X. Zhang, Y.-R. Chien, and J. Bai,PMSM non-singular fast terminal sliding mode control withdisturbance compensation, Information Sciences, 2023, 119040.
  5. [5] W. Nie, Z. Wang, L. Yu, and J. Mu, Sensorless control ofpermanent magnet synchronous motor based on optimization ofnon-singular fast terminal sliding mode observer, MechatronicSystems and Control, 50(3), 2022, 138–144.
  6. [6] Q. Zeng and Y. Chen, Sensorless control for PMSM inunderwater propeller based on improved phase-locked loop,IEICE Electronics Express, 18(11), 2021, 20210111–20210111.
  7. [7] G. Chen and L. Xu, Adaptive quasi-proportional resonantcontrol with parameter estimation for PMSM sensorlesscontrol, Advances in Mechanical Engineering, 15(2), 2023,16878132231154069.
  8. [8] W. Kang and H. Li, Improved sliding mode observer basedsensorless control for PMSM, IEICE Electronics Express,14(24), 2017, 20170934–20170934.
  9. [9] Q. Zhou, P. Ma, H. Gong, P. Wang, and G. Du, Highfrequency torque pulsation suppression strategy for dualwinding permanent magnet synchronous motor sensorlesscontrol based on dual high frequency square wave injectionmethod, Journal of Electrical Engineering & Technology, 18,2023, 1–9.
  10. [10] Y. Li, Z. Chen, X. Sun, C. Gao, X. Liu, and Y. Guo,Back propagation neural network-based torque ripple reductionstrategy for high frequency square-wave voltage injection-based interior permanent magnet synchronous motor sensorlesscontrol, IET Electric Power Applications, 17(2), 2023, 195–205.
  11. [11] J.-H. Jang, M. Ohto, K. Ide, and S.K. Sul, Analysis ofpermanent-magnet machine for sensorless control based onhigh-frequency signal injection, IEEE Transactions on IndustryApplications, 40(6), 2004, 1595–1604.
  12. [12] G. Wang, L. Yang, G. Zhang, X. Zhang, and D. Xu,Comparative investigation of pseudorandom high-frequencysignal injection schemes for sensorless IPMSM drives, IEEETransactions on Power Electronics, 32(3), 2016, 2123–2132.
  13. [13] Z. Xu, J. Zhang, Z. Din, Y. Wu, and M. Cheng, Inter-turn short-circuit fault detection with high-frequency signal injection forinverter-fed PMSM systems, Journal of Power Electronics,2023, 1–12.
  14. [14] G. Li, H. Li, X, He, and X. Wang, A sensorless control system ofpermanent magnet synchronous motor for electric locomotivebased on improved high-frequency rotating injection method,Transactions of the Institute of Measurement and Control,45(9), 2023, 01423312221142972.
  15. [15] L. Yan, Z.Q. Zhu, and B. Shao, Current measurement gaincompensation using high-frequency signal injection in dualthree phase PMSM systems, IEEE Transactions on IndustrialElectronics, 71(4), 2024, 3472–3482.
  16. [16] S. Shinnaka, New “D-State-Observer”-based vector controlfor sensorless drive of permanent-magnet synchronous motors,IEEE Transactions on Industry Applications, 41(3), 2005,825–833.
  17. [17] S. Shinnaka, New sensorless vector control using minimum-order flux state observer in a stationary reference frame forpermanent-magnet synchronous motors, IEEE Transactionson Industrial Electronics, 53(2), 2006, 388–398.
  18. [18] J. Lu, W. Wang, J. Zhang, and J. Su, Research on sensorlesscontrol of built-in permanent magnet synchronous motor basedon extended Kalman filter algorithm, Journal of Physics:Conference Series, 2479(1), 2023, 012063.
  19. [19] R. Jin, P. Xiao, M. Sun, and J. Wang, Motor control systemdesign based on improved extended Kalman filter, Proc.International Conf. on Computer, Artificial Intelligence, andControl Engineering (CAICE 2023), Hangzhou, 2023.
  20. [20] M.Y. Candan and M.M. Ankarali, Steady-state hybrid extendedKalman filter based sensorless voltage controller for a phase-shifted full-bridge converter, IET Power Electronics, 16(1),2023, 53–63.
  21. [21] B. Ning, Y. Zhao, and S. Cheng, An improved sensorless hybridcontrol method of permanent magnet synchronous motor basedon I/F startup, Sensors, 23(2), 2023, 635.
  22. [22] S. Bolognani, L. Tubiana, and M. Zigliotto, Extended Kalmanfilter tuning in sensorless PMSM drives, IEEE Transactionson Industry Applications, 39(6), 2003, 1741–1747.
  23. [23] H. Liu, L. Wang, L. Zhou, R. Hao, W. Wang, Y. Shi, T. Zhang,and F. Bian, Application of a new type of super twist slidingmode control in flywheel energy storage, IEICE ElectronicsExpress, 20(7), 2023, 20220544.
  24. [24] G. Liu, A. Farahat, Q. Chen, J. Zhang, and X. Wang, Sensorlesscontrol for five-phase PMSMs under normal and open-circuitfault conditions using super-twisting sliding mode observers,Journal of Power Electronics, 23, 2023, 1–13.
  25. [25] Y. Zhong, H. Lin, J. Wang, and H. Yang, Improved adaptivesliding mode observer based position sensorless control forvariable flux memory machines, IEEE Transactions on PowerElectronics, 38(5), 2023, 6395–6406.
  26. [26] A.G. Abo-Khalil, A.M. Eltamaly, M.S. Alsaud, K. Sayed, A.S.Alghamdi, Sensorless control for PMSM using model referenceadaptive system, International Transactions on ElectricalEnergy Systems, 31(2), 2021, e12733.
  27. [27] K.K. Prabhakaran and A. Karthikeyan, Electromagnetictorque-based model reference adaptive system speed estimatorfor sensorless surface mount permanent magnet synchronousmotor drive, IEEE Transactions on Industrial Electronics,67(7), 2020, 5936–5947.
  28. [28] A.A. Abd Samat, D. Ishak, S. Iqbal, and A.I. Tajudin,Implementation of Sugeno FIS in model reference adaptivesystem adaptation scheme for speed sensorless control ofPMSM, Proc. 2014 IEEE International Conf. on ControlSystem, Computing and Engineering (ICCSCE 2014). IEEE,Penang, 2014, 652–657.
  29. [29] J. Yan, H. Lin, Y. Feng, X. Guo, Y. Huang, and Z.Q.ZhuImproved sliding mode model reference adaptive systemspeed observer for fuzzy control of direct-drive perma-nent magnet synchronous generator wind power generationsystem, IET Renewable Power Generation, 7(1), 2013,28–35.
  30. [30] Q. Teng, et al., Model predictive torque control of three-phase permanent magnet synchronous motor without speedsensor based on sliding mode model reference adaptiveobserver, Control Theory and Applications, 2, 2015, 150–161(in Chinese).
  31. [31] L. Wang, H. Zhang, and X. Liu, Low speed PMSM speedsensorless speed sensor system integral sliding mode control,Electric Machines and Control , 16(2), 2012, 19–24.
  32. [32] J.A. Moreno and M.A. Osorio, A Lyapunov approach to second-order sliding mode controllers and observers, Proc. 2008 47thIEEE Conf. on Decision and Control IEEE, Cancun, 2008,2856–2861.7

Important Links:

Go Back