A Low Cogging Force Permanent Magnet Linear Motor Having 3 Phase 9 Pole 10 Slot Structure

코깅력이 저감된 3상 9극 10슬롯 구조의 영구자석 선형 전동기

  • Published : 2006.11.01

Abstract

The detent force of a permanent magnet linear motor(PMLM) consists of the end force and cogging force, and should be reduced for high precision purpose applications. The cogging force comes from the electromagnetic interaction between the permanent magnets and interior teeth(or the slots) of the stator, and of which the magnitude depends on the ratio of the numbers of the armature and permanent magnet poles as well as the geometrical shape of the permanent magnet and armature pole. In order to reduce the cogging force of a PMLM, this paper proposes a new configuration which has 9 permanent magnet poles and 10 armature winding slots. By theoretical investigation of the principle of cogging force generation and simulating using finite element method, the proposed PMLM configuration is proven to give much less cogging force than the conventional configuration which has 8 permanent magnet poles and 12 armature winding slots. A proper winding algorithm, modified (A, A, A) winding method, for the proposed configuration is also suggested when the proposed PMLM is operating as a 3 phase synchronous machine. A theoretical and numerical calculation shows that the proposed configuration makes slightly bigger back-emf and thrust force under same exciting current and total number of winding turns condition.

Keywords

References

  1. I. S. Jung, S. B. Yoon, J. H. Shim, D. S. Hyun, 'Analysis of forces in a short primary type and an short secondary type permanent magnet. linear synchronous motor', IEEE Trans. on Energy Conversion, Vol. 14, No.4, pp. 1265 - 1270, 1999 https://doi.org/10.1109/60.815057
  2. Masaya Inoue, Kenji Sato, 'An approach to a suitable stator length for minimizing the detent force of permanent magnet linear synchronous motors', IEEE Trans. on Magn., Vol. 36, No.4, pp. 1890 1893, 2000 https://doi.org/10.1109/20.877814
  3. 정인성,'개선된 수치해석 기법을 이용한 영구자석형 선형 동기전동기의 특성해석' 한양대학교 박사학위논문, 1999. 12
  4. 이종진, 연승환, 고창섭, '원통형 영구자석 선형 동기전 동기의 디텐트력 저감' 대한 전기 학회 논문지 B권, 55권 4호, pp. 209-215, 2006년 4월
  5. T. Yoshimura, J. J. Kim, M. Watada, S. Torii, D. Ebihara, 'Analysis of the reduction of detent force in a permanent magnet linear synchronous motor', IEEE Trans. on Magn., Vol. 31, No.6, pp. 3728-3730, 1995 https://doi.org/10.1109/20.489752
  6. K. C. Lim, J. K. Woo, G. H. Kang, J. P. Hong, and G. T. Kim, 'Detent force minimization techniques in permanent magnet linear synchronous motors', IEEE Trans. on Magn., Vol. 38, No.2, pp. 1157 - 1160, 2002 https://doi.org/10.1109/20.996296
  7. Mohammad S. Islam, Sayeed Mir, Tomy Sebastian, 'Issues in reducing the cogging torque of mass-produced permanent magnet brushless DC motor', IEEE Trans. on Industry Applications, Vol. 40, No.3, pp. 813 - 820, 2004 https://doi.org/10.1109/TIA.2004.827469
  8. R. J. Cruise, C. F. Landy, 'Reduction of cogging forces in linear synchronous motors', AFRICON 1999 IEEE, Vol. 2, pp. 623 - 626, 1999 https://doi.org/10.1109/AFRCON.1999.821834
  9. In-Soung Jung, Jin Hur, Dong-Seck Hyun, 'Performance analysis of skewed PM linear synchronous motor according to various design parameters', IEEE Trans. on Magn., Vol. 37, No.5, pp. 3653 - 3657, 2001 https://doi.org/10.1109/20.952683
  10. Z. Q. Zhu, David Howe, 'Influence of design parameters on cogging torque in permanent magnet machines', IEEE Trans. on Energy Conversion, Vol. 15, No.4, PP. 407 - 412, 2000 https://doi.org/10.1109/60.900501
  11. M. Y. Kim, Y. C. Kim, G. T. Kim, 'Design of slotless-type PMLSM for high power density using divided PM', IEEE Trans. on Magn., Vol. 40, No.2, pp, 746 - 749, 2004 https://doi.org/10.1109/TMAG.2004.824726
  12. 川原 敦志, 리니어 모타, 일본국특허청, 특허출원공개 번호 特閒 2004-364374(P2004-364374A)
  13. 가와시마낀지, 툴극치를 가지는 전기자와 계자자석을 가지는 모우터, 대한민국특허청, 출원변호 특 1988-0007477
  14. C. S. Koh, J. S. Seol, 'New cogging -torque reduction method for brushless permanent-magnet motors', IEEE Trans. on Magn., Vol. 39, No.6, pp, ?3503 - 3506, 2003 https://doi.org/10.1109/TMAG.2003.819473
  15. Leila Parsa, Lei Hao, Hamid A. Toliyat, 'Optimization of average and cogging torque in 3-phase IPM motor drives', IEEE Industry Applications Conference 2002, 37th lAS Annual Meeting, pp. 417 - 424, 2002
  16. Humio Tajima, Kunio Miyasjota, Motoya Itou, Akira Tamura, Takeo Konno, 'Analysis of cogging torque by finite element methods', 일본전기학회논문지, pp. 635 - 641, 1987
  17. Carl G. Jeans, Rupert J. Cruise, Charles F. Landy, 'Methods of detent force reduction in linear synchronous motors', IEEE International Conference on Electric machines and drives, IEMD'99, pp. 437 - 439, 1999
  18. J.R.Hendershot, and TJE Miller, Design of brushless permanent magnet motor, Magna Physics Publications, 1994, Chapter '3