The Transactions of the Korean Institute of Electrical Engineers P (전기학회논문지P)

The Korean Institute of Electrical Engineers (대한전기학회)
권호 표지

Maximum Torque Control of SynRM Drive with Artificial Neural Network

인공 신경회로망에 의한 SynRM 드라이브의 최대토크 제어

  • Published : 2005.12.31
Download PDF
⟨ Previous Next ⟩

Abstract

In this paper, a new approach for the Synchronous Reluctance Motor control which ensures producing Maximum Torque per Ampere(MTPA) over the entire field weakening region is presented. In addition, This paper presents a speed sensorless control scheme of SynRM using artificial neural network. Also, by adjusting the base speed for the field weakening operation according to the flux level, the current and voltage limit, the smooth and precise transition into the field weakening operation can be achieved. The proposed scheme is verified validity through simulation.

Keywords

References

  1. T. A. Lipo, 'Synchronous reluctance machines: A viable alternative for A.C. drives?,' in Proc. Int. Conf. Evolution and Modern Aspects of Synchronous Machines, Zurich, Switzerland, Aug., pp. 27-29, 1991
  2. T. Matsuo and T. A. Lipo, 'Rotor design optimization of synchronous reluctance machine,' IEEE Trans. Energy conversion, vol. 9, no. 2, pp. 359-365, 1994 https://doi.org/10.1109/60.300136
  3. A. Staton, T. J. E. Miller and S. E. Wood, 'Optimization of the synchronous reluctance motor geometry,' in Conf. Rec. Electrical machines and Drives, London, UK, pp. 156-160, 1991
  4. T. Matsuo and T. A. Lipo, 'Field oriented control of synchronous reluctance machine,' in Conf. Rec. IEEE Power Electron Specialists Conf., pp 425-431, 1993
  5. B. J. Chalmers and L. Musaba, 'Design and field-weakening performance of a synchronous reluctance motor with axially-laminated rotor,' IEEE-IAS Annu. Meet. Conf. Rec., pp. 271-278, 1997
  6. P. Vas, 'Vector control of ac machines,' Clarendon Press, pp. 124-126, 1990
  7. R. Joetten and H. Schierling, 'Control of the induction machine in the field weakening range,' in Proc. IFAC 1983, pp. 297-304
  8. M. S. Arefeen, M. Ehsani and T. A. Lipo, 'An analysis of the accuracy of indirect shaft sensor for synchronous reluctance motor,' IEEE Trans. on IA, vol. 30, no. 5, pp. 1202-1209, 1994
  9. Y. Q. Xiang and S. A. Nasar, 'Estimation of rotor position and speed of a synchronous reluctance motor for servodrives,' IEE Proc EPA, vol. 142, no. 3, pp. 201-205, 1995
  10. T. Matsuo and T. A. Lipo, 'Rotor Position Detection Scheme for Synchronous reluctance motor Based on Current Measurement,' IEEE Transactions on Industry Applications,' vol. 31, no. 4, July/August, pp. 860-868. 1995 https://doi.org/10.1109/28.395297
  11. M. G. Jovanovic, R. E. Betz and D. Platt, 'Sensorless vector controller for a synchronous reluctance motor,' IEEE IAS Ann. Meet., pp. 122-129, 1996
  12. M. Schroedl and P. Weinmeier, 'Sensorless Control of Reluctance machines at Arbitrary Operating Conditions Including Standstill,' IEEE Transactions on Power Electronics, vol. 9, no. 2, Narch, pp. 225-231, 1994 https://doi.org/10.1109/63.286816
  13. R. Lagerquist, I. Boldea and T. J. E. Miller, 'Sensorless Control of the Synchronous reluctance motor,' IEEE Transactions on Industry Applications, vol. 30, no. 3, May/June, pp. 673-682, 1994 https://doi.org/10.1109/28.293716
  14. T. Matsuo and T. A. Lipo, 'Rotor Position Detection Scheme for Synchronous reluctance motor Based on Current Measurement,' IEEE Transactions on Industry Applications,' vol. 31, no. 4, July/August, pp. 860-868. 1995 https://doi.org/10.1109/28.395297
  15. M. Schroedl and P. Weinmeier, 'Sensorless Control of Reluctance machines at Arbitrary Operating Conditions Including Standstill,' IEEE Transactions on Power Electronics, vol. 9, no. 2, Narch, pp. 225-231, 1994 https://doi.org/10.1109/63.286816