Hongguang Yan, Lingshun Liu, Yongheng Li, and Guorong Zhao


  1. [1] E. Levi, Advances in converter control and innovative exploitation of additional degrees of freedom for multiphase machines, IEEE Transactions on Industrial Electronics, 63(1), 2016, 433–448.
  2. [2] E. Levi, M. Jones and S.N. Vukosavic, A novel concept of a multiphase, multimotor vector controlled drive system supplied from a single voltage source inverter, IEEE Transactions on Power Electronics, 19(2), 2004, 320–335.
  3. [3] K.K. Mohapatra, R.S. Kanchan, M.R. Baiju, P.N. Tekwani and K. Gopakumar, Independent field-oriented control of two split-phase induction motors from a single six-phase inverter, IEEE Transactions on Industrial Electronics, 52(5), 2005, 1372–1382.
  4. [4] M. Jones and E. Levi, Series connected quasi-six-phase two-motor drives with independent control, Mathematics & Computers in Simulation, 71(4), 2006, 415–424.
  5. [5] L.S. Liu, S.Y. Zhang, and H.S. Liu, Harmonic effects of double Y shift 30◦ PMSM two-motor series-connected system, Electric Machines & Control, 18(7), 2014, 72–78.
  6. [6] E. semail, E. Levi, A. Bouscayrol and X. Kestelyn, Multimachine modelling of two series connected 5-phase synchronous machines: effect of harmonics on control, European Conference on Power Electronics and Applications IEEE, 10, 2006, 10.
  7. [7] M. Mengoni, A. Tani, L. Zarri, G. Serra and D. Casadei, Position control of a multi-motor drive based on series-connected five-phase tubular PM actuators, IEEE Transactions on Industry Applications, 48(6), 2013, 2048–2058.
  8. [8] K.E. Hai-Sen, X.Y. Wang, and P.N. Chen, Backstepping-based global adaptive control of permanent magnet synchronous motor, Control & Decision, 24(12), 2009, 1912–1916.
  9. [9] M. Morawiec, The adaptive backstepping control of permanent magnet synchronous motor supplied by current source inverter, IEEE Transactions on Industrial Informatics, 9(2), 2013, 1047–1055.
  10. [10] K.V. Prashanth and H.G. Navada, Position control of interior permanent magnet synchronous motor using adaptive backstepping technique, International Conf. on Advances in Computing, Communications and Informatics, 2013, 1718–1723.
  11. [11] M. Ouassaid, M. Cherkaoui, and Y. Zidani, A nonlinear speed control for a PM synchronous motor using an adaptive backstepping control approach, IEEE International Conf. on Industrial Technology, 2004. IEEE ICIT IEEE, 3, 2004, 1287–1292.
  12. [12] Z.C. Ji, S.D. Li, and Y.X. Shen. Adaptive backstepping design for the servo controller of permanent magnet synchronous motor, Control & Decision, 8(4), 2005, 353–356.
  13. [13] J. Zhou and Y. Wang, Adaptive backstepping speed controller design for a permanent magnet synchronous motor, IEE Proceedings – Electric Power Applications, 149(2), 2002, 165–172.
  14. [14] W. Liu, Q. Yang and G. Luo, An effective sensorless backstepping control of PMSM in high-altitude electric propulsion system, Journal of Northwestern Polytechnical University, 2013, 457–463.

Important Links:

Go Back