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A Review on Controlling Techniques for Permanent Magnet Synchronous Motor (PMSM) and Current State of the Art in the Research Area

Parvathy Thampi M. S., Chitra Kiran N.. Published in Information Sciences.

Communications on Applied Electronics
Year of Publication: 2019
Publisher: Foundation of Computer Science (FCS), NY, USA
Authors: Parvathy Thampi M. S., Chitra Kiran N.
10.5120/cae2019652808

Parvathy Thampi M S. and Chitra Kiran N.. A Review on Controlling Techniques for Permanent Magnet Synchronous Motor (PMSM) and Current State of the Art in the Research Area. Communications on Applied Electronics 7(25):8-17, January 2019. BibTeX

@article{10.5120/cae2019652808,
	author = {Parvathy Thampi M. S. and Chitra Kiran N.},
	title = {A Review on Controlling Techniques for Permanent Magnet Synchronous Motor (PMSM) and Current State of the Art in the Research Area},
	journal = {Communications on Applied Electronics},
	issue_date = {January 2019},
	volume = {7},
	number = {25},
	month = {Jan},
	year = {2019},
	issn = {2394-4714},
	pages = {8-17},
	numpages = {10},
	url = {http://www.caeaccess.org/archives/volume7/number25/844-2019652808},
	doi = {10.5120/cae2019652808},
	publisher = {Foundation of Computer Science (FCS), NY, USA},
	address = {New York, USA}
}

Abstract

The significance of Permanent Magnet Synchronous Motors (PMSM) is that it offers high performance and efficiency for motor drives. The controlling of the high-performance motor is characterized by smooth operation of the motor over entire speed range, control ability of torque even at zero speed, fast acceleration, and deceleration. The optimization of the speed- control performance under different constraints and uncertainties is the biggest concern in PMSM. In that sense, various speed-control mechanisms were presented towards identifying the better way to control PMSM drive having high-speed features and desired torque response. However, it is necessary to have a suitable control mechanism where the better adjustment of performance can be achieved for a different operating condition. However, it is quite hard to distinguish the system characteristics and dynamic control parameters during real-time operation due to complexity in PMSM system. This paper intends to present the survey of controlling strategies in PMSM and current research trends in PMSM. Along with the research gap, a futuristic line of research is presented.

References

  1. Choi, Han Ho, Hong Min Yun, and Yong Kim. "Implementation of evolutionary fuzzy PID speed controller for PM synchronous motor." IEEE Transactions on Industrial Informatics 11.2 (2015): 540-547.
  2. Jung, Jin-Woo, et al. "Adaptive PID speed control design for permanent magnet synchronous motor drives." IEEE Transactions on Power Electronics 30.2 (2015): 900-908.
  3. Lee, Kwang-Woon, Sungin Park, and Seongki Jeong. "A seamless transition control of sensorless PMSM compressor drives for improving efficiency based on a dual-mode operation." IEEE Transactions on Power Electronics 30.3 (2015): 1446-1456.
  4. Lemmens, Joris, Piet Vanassche, and Johan Driesen. "PMSM drive current and voltage limiting as a constraint optimal control problem." IEEE Journal of emerging and selected topics in power electronics 3.2 (2015): 326-338.
  5. Lee, Yongjae, and Jung-Ik Ha. "Hybrid modulation of the dual inverter for open-end permanent magnet synchronous motor." IEEE Trans. Power Electron 30.6 (2015): 3286-3299.
  6. Yu, Jinpeng, et al. "Neural network-based adaptive dynamic surface control for permanent magnet synchronous motors." IEEE Trans. Neural Netw. Learning Syst. 26.3 (2015): 640-645.
  7. Gebregergis, Abraham, et al. "Modeling of permanent-magnet synchronous machine including torque ripple effects." IEEE Transactions on Industry Applications 51.1 (2015): 232-239.
  8. Liu, Kan, and Zi-Qiang Zhu. "Position offset-based parameter estimation for permanent magnet synchronous machines under variable speed control." IEEE Transactions on Power Electronics 30.6 (2015): 3438-3446.
  9. Xia, Changliang, Bingnan Ji, and Yan Yan. "Smooth Speed Control for Low-Speed High-Torque Permanent-Magnet Synchronous Motor Using Proportional-Integral-Resonant Controller." IEEE Trans. Industrial Electronics 62.4 (2015): 2123-2134.
  10. Ni, Ronggang, et al. "Maximum efficiency per ampere control of permanent-magnet synchronous machines." IEEE Transactions on Industrial Electronics 62.4 (2015): 2135-2143.
  11. Hoang, Khoa Dang, et al. "Modified switching-table strategy for reduction of current harmonics in direct torque controlled dual-three-phase permanent magnet synchronous machine drives." IET Electric Power Applications 9.1 (2014): 10-19.
  12. Sandre-Hernandez, Omar, et al. "Parameter identification of PMSMs using experimental measurements and a PSO algorithm." IEEE Transactions on Instrumentation and Measurement 64.8 (2015): 2146-2154.
  13. Wang, Zheng, et al. "Fault-tolerant control of paralleled-voltage-source-inverter-fed PMSM drives." IEEE Transactions on Industrial Electronics 62.8 (2015): 4749-4760.
  14. Lin, Faa-Jeng, et al. "Intelligent position control of permanent magnet synchronous motor using recurrent fuzzy neural cerebellar model articulation network." IET Electric Power Applications 9.3 (2015): 248-264.
  15. Su, Yu Xin, Chun Hong Zheng, and Bao Yan Duan. "Automatic disturbances rejection controller for precise motion control of permanent-magnet synchronous motors." IEEE Transactions on Industrial Electronics 52.3 (2005): 814-823.
  16. Kim, Junwoo, et al. "Sensorless control of PMSM in a high-speed region considering iron loss." IEEE Transactions on Industrial Electronics 62.10 (2015): 6151-6159.
  17. Formentini, Andrea, et al. "Speed finite control set model predictive control of a PMSM fed by matrix converter." IEEE Transactions on Industrial Electronics 62.11 (2015): 6786-6796.
  18. Carpiuc, Sabin-Constantin, and Corneliu Lazar. "Fast real-time constrained predictive current control in permanent magnet synchronous machine-based automotive traction drives." IEEE Transactions on Transportation Electrification 1.4 (2015): 326-335.
  19. Niu, Feng, et al. "Comparative evaluation of direct torque control strategies for permanent magnet synchronous machines." IEEE Transactions on Power Electronics 31.2 (2016): 1408-1424.
  20. Kim, Seok-Kyoon, Kyoung-Gu Lee, and Kyo-Beum Lee. "Singularity-free adaptive speed tracking control for uncertain permanent magnet synchronous motor." IEEE Transactions on Power Electronics 31.2 (2016): 1692-1701.
  21. Song, Xinda, et al. "Adaptive compensation method for high-speed surface PMSM sensorless drives of EMF-based position estimation error." IEEE Transactions on Power Electronics 31.2 (2016): 1438-1449.
  22. Wang, Fei, et al. "A control strategy for suppressing circulating currents in parallel-connected PMSM drives with individual DC links." IEEE Transactions on Power Electronics 31.2 (2016): 1680-1691.
  23. Xie, Ge, et al. "Minimum-voltage vector injection method for sensorless control of PMSM for low-speed operations." IEEE Transactions on Power Electronics 31.2 (2016): 1785-1794.
  24. Wang, Zheng, et al. "Field-oriented control and direct torque control for paralleled VSIs fed PMSM drives with variable switching frequencies." IEEE Transactions on Power Electronics 31.3 (2016): 2417-2428.
  25. Vafaie, Mohammad Hossein, et al. "A new predictive direct torque control method for improving both steady-state and transient-state operations of the PMSM." IEEE Transactions on power electronics 31.5 (2016): 3738-3753.
  26. Lin, Tzu-Chi, et al. "Improved sensorless control of switched-flux permanent-magnet synchronous machines based on different winding configurations." IEEE Transactions on Industrial Electronics 63.1 (2016): 123-132.
  27. Cheema, Muhammad Ali Masood, et al. "A direct thrust control scheme for linear permanent magnet synchronous motor based on online duty ratio control." IEEE Transactions on Power Electronics 31.6 (2016): 4416-4428.
  28. Ni, Ronggang, et al. "Efficiency Enhancement of General AC Drive System by Remanufacturing Induction Motor With Interior Permanent-Magnet Rotor." IEEE Trans. Industrial Electronics 63.2 (2016): 808-820.
  29. Mwasilu, Francis, and Jin-Woo Jung. "Enhanced fault-tolerant control of interior PMSMs based on an adaptive EKF for EV traction applications." IEEE Transactions on Power Electronics 31.8 (2016): 5746-5758.
  30. Ge, Hao, et al. "Speed range extended maximum torque per ampere control for PM drives considering inverter and motor nonlinearities." IEEE Transactions on Power Electronics 32.9 (2017): 7151-7159.
  31. Feng, Guodong, Chunyan Lai, and Narayan C. Kar. "A closed-loop fuzzy-logic-based current controller for PMSM torque ripple minimization using the magnitude of speed harmonic as the feedback control signal." IEEE Transactions on Industrial Electronics 64.4 (2017): 2642-2653.
  32. Chaoui, Hicham, Mehdy Khayamy, and Abdullah Abdulaziz Aljarboua. "Adaptive interval type-2 fuzzy logic control for PMSM drives with a modified reference frame." IEEE Transactions on Industrial Electronics 64.5 (2017): 3786-3797.
  33. Zhou, Zhanqing, et al. "Torque ripple minimization of predictive torque control for PMSM with extended control set." IEEE Transactions on Industrial Electronics 64.9 (2017): 6930-6939.
  34. Alvarez-Gonzalez, Fernando, et al. "Real-Time Hardware-in-the-Loop Simulation of Permanent-Magnet Synchronous Motor Drives Under Stator Faults." IEEE Transactions on Industrial Electronics 64.9 (2017): 6960-6969.
  35. Wang, Yi, J. G. Zhu, and Y. G. Guo. "A survey of direct torque control schemes for permanent magnet synchronous motor drives." Power Engineering Conference, 2007. AUPEC 2007. Australasian Universities. IEEE, 2007.
  36. Siami, Mohsen, et al. "An experimental evaluation of predictive current control and predictive torque control for a pmsm fed by a matrix converter." IEEE Trans. Ind. Electron 64.11 (2017): 8459-8471.
  37. Khalil, Hassan K. "High-gain observers in feedback control: Application to permanent magnet synchronous motors." IEEE Control Systems 37.3 (2017): 25-41.
  38. Abosh, Atheer H., Zi-Qiang Zhu, and Yuan Ren. "Cascaded Direct Torque Control of Unbalanced PMSM With Low Torque and Flux Ripples." IEEE Transactions on Power Electronics 33.2 (2018): 1740-1749.
  39. Zhou, Zhanqing, et al. "Disturbances attenuation of permanent magnet synchronous motor drives using cascaded predictive-integral-resonant controllers." IEEE Trans. Power Electron. 33.2 (2018): 1514-1527.
  40. Cai, Xinbo, et al. "Optimal Control Solutions for PMSM Drives: A Comparison Study With Experimental Assessments." IEEE Journal of Emerging and Selected Topics in Power Electronics 6.1 (2018): 352-362.
  41. Šmídl, Václav, et al. "Direct Speed Control of a PMSM Drive Using SDRE and Convex Constrained Optimization." IEEE Transactions on Industrial Electronics 65.1 (2018): 532-542.
  42. Houari, Azeddine, et al. "An Effective Compensation Technique for Speed Smoothness at Low-Speed Operation of PMSM Drives." IEEE Transactions on Industry Applications 54.1 (2018): 647-655.
  43. Repecho, Víctor, Domingo Biel, and Antoni Arias. "Fixed switching period discrete-time sliding mode current control of a PMSM." IEEE Transactions on Industrial Electronics 65.3 (2018): 2039-2048.
  44. Jiang, Yajie, et al. "Improved Deadbeat Predictive Current Control Combined Sliding Mode Strategy for PMSM Drive System." IEEE Transactions on Vehicular Technology 67.1 (2018): 251-263.
  45. Liu, Tianyi, and Maurice Fadel. "An Efficiency-Optimal Control Method for Mono-Inverter Dual-PMSM Systems." IEEE Transactions on Industry Applications 54.2 (2018): 1737-1745.
  46. da Cunha, Gilberto, et al. "Control of permanent magnet synchronous machines for subsea applications." Petroleum and Chemical Industry Technical Conference (PCIC), 2017. IEEE, 2017.
  47. Wang, Yu, et al. "Control Method for Optimal Dynamic Performance of DTC based PMSM drives." IEEE Transactions on Energy Conversion (2018).
  48. Thounthong, Phatiphat, et al. "Nonlinear Differential Flatness-Based Speed/Torque Control With State-Observers of Permanent Magnet Synchronous Motor Drives." IEEE Transactions on Industry Applications 54.3 (2018): 2874-2884.
  49. Lin, Hai, Fei Zhao, and Byung-Il Kwon. "Analysis and Control of the Permanent Magnet Synchronous Motor With Auxiliary Modular Design." IEEE Transactions on Magnetics 99 (2018): 1-6.
  50. Dieterle, Oliver, Thomas Greiner, and Peter Heidrich. "Control of a PMSM With Quadruple Three-Phase Star-Connected Windings Under Inverter Short-Circuit Fault." IEEE Transactions on Industrial Electronics 66.1 (2019): 685-695.

Keywords

Permanent Magnet Synchronous Motors (PMSM), Performance, Speed, Control, Torque.