MODELLING AND SIMULATION OF INTERTURN SHORT FAULT IN MICRO DIRECT-CURRENT MOTORS

Zhiping Xie, Jiming Zheng, and Yancheng Lang

References

  1. [1] Z.P. Xie, J.F. Hong, W. Wu, and W.X. Chen, A practical method of fault detection for micro DC motors on the production line, International Journal of Power and Energy Systems, 35(1), 2015, 20–27.
  2. [2] S. Choi, M.S. Haque, M.T.B. Tarek, et al., Fault diagnosis techniques for permanent magnet AC machine and drives: A review of current state of the art, IEEE Transactions on Transportation Electrication, 4(2), 2018, 444–463.
  3. [3] N.H. Obeid, T. Boileau, and B. Nahid-Mobarakeh, Modelling and diagnostic of incipient interturn faults for a three-phase permanent magnet synchronous motor, IEEE Transactions on Industry Applications, 52(5), 2016, 4426–4434.
  4. [4] H. Qian, H. Guo, X.F. Ding, Modeling and analysis of interturn short fault in permanent magnet synchronous motors with multistrands windings, IEEE Transactions on Power Electronics, 31(3), 2016, 2496–2509.
  5. [5] W.K. Qian and Y.T. Shi, Analysis and simulation on torque ripples of brushless DC motor, Telkomnika, 13(2), 2015, 381–390.
  6. [6] J. Figueroa, C. Brocart, J. Cros, and P. Viarouge, Simplified simulation methods for polyphase brushless DC motors, Mathematics and Computers in Simulation, 63(3–5), 2003, 209–224.
  7. [7] Y.H. Yin, B. Zheng, and H.X. Zheng, A method for modeling and simulation of brushless DC motor control system based on MATLAB, Journal of System Simulation, 20(2), 2008, 293–298.
  8. [8] R.N.F.K.R. Othman, N.A.M. Zuki, S.R.C. Ahmad, F.A. Shukor, S.Z.M. Isa, and M.N. Othman, Modelling of torque and speed characterisation of double stator slotted rotor brushless DC motor, IET Electric Power Applications, 12(1), 2018, 106–113.
  9. [9] E. Kaliappan, C. Chellamuthu, Modeling, simulation and experimental analysis of permanent magnet brushless DC motors for sensorless operation, Archives of Electrical Engineering, 61(4), 2012, 499–515.
  10. [10] B. Tibor, V. Fedak, and F. ¨Iurovsk´y, Modeling and simulation of the BLDC motor in MATLAB GUI, Proc. IEEE ISIE, Gdansk, CA, 2011, 1403–1407.
  11. [11] M. Cunkas and O. Aydogdu, Realization of fuzzy logic controlled brushless DC motor drives using MATLAB/Simulink, Mathematical and Computational Applications, 15(2), 2010, 218–229.
  12. [12] R. Beloiu, I. Bostan, and M. Iorgulescu, Dynamic electronic model for a DC motor – simulation and experimental validation, Proc. IEEE ECAI, Bucharest, CA, 2014, 7–12.
  13. [13] B.K. Lee and M. Ehsani, Advanced simulation model for brushless DC motor drives, Journal of Power Electronics, 3(2), 2003, 124–138.
  14. [14] Z.C. Ji, Y.X. Shen, and J.G. Jiang, A novel method for modeling and simulation of BLDC system based on MATLAB, Journal of System Simulation, 15(12), 2003, 1745–1749.
  15. [15] I. Jeong, B.J. Hyon, and K. Nam, Dynamic modeling and control for SPMSMs with internal turn short fault, IEEE Transactions on Power Electronics, 28(7), 2013, 3495–3508.
  16. [16] P. Pillay, R. Krishnan, Modeling, simulation, and analysis of permanent-magnet motor drives, part II: The brushless DC motor drive, IEEE Transactions on Industry Applications, 25(2), 1989, 274–279.
  17. [17] Z.P. Wang, Principle, design and steady speed system of permanent magnet DC micromotor. (Nanjing: Southeast University Press, 1992).

Important Links:

Go Back