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Electric Power Components and Systems Volume 42, 2014 - Issue 12
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Original Articles

Cogging Torque Reduction and Optimization in Surface-mounted Permanent Magnet Motor Using Magnet Segmentation Method

Abolhassan GhasemiDepartment of Electrical Engineering, Islamic Azad University–Branch of Dehdasht, Dehdasht, IranCorrespondence[email protected]
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Pages 1239-1248 | Received 03 Jul 2013, Accepted 09 Feb 2014, Published online: 30 Jul 2014

References

  • Jiao, H., Cheng, M., Hua, W., Zhao, W., and Li, W., “Torque ripple suppression in flux switching PM motor by harmonic current injection based on voltage space-vector modulation,” IEEE Trans. Magnet., Vol. 46, pp. 1527–1530, 2010.
  • Li, T., and Slemon, G., “Reduction of cogging torque in permanent magnet motors,” IEEE Trans. Magnet., Vol. 24, pp. 2901–2903, 1988.
  • Ishikawa, T., and Slemon, R., “A method of reducing ripple torque in permanent magnet motors without skewing,” IEEE Trans. Magnet., Vol. 29, pp. 2028–2031, 1993.
  • Braga Filho, E.R., and Lima, A.M. N., “Reducing cogging torque in interior permanent magnet machines without skewing,” IEEE Trans. Magnet., Vol. 34, pp. 3652–3655, 1998.
  • Hwang, C., John, S.B., and Wu, S., “Reduction of cogging torque in spindle motors for CD-ROM drive,” IEEE Trans. Magnet., Vol. 34, pp. 468–470, 1998.
  • Jahns, T.M., and Soong, W.L., “Pulsating torque minimization techniques for permanent magnet AC motors drives—a review,” IEEE Trans. Ind. Electron., Vol. 43, pp. 321–330, 1996.
  • Bianchi, N., and Bolognani, S., “Design techniques for reducing the cogging torque in surface-mounted PM motors,” IEEE Trans Ind. Appl., Vol. 39, pp. 1259–1365, 2002.
  • Hwang, S.M., Eom, J.B., Jung, Y.H., Lee, D.W., and Kang, B.S., “Various design techniques to reduce cogging torque by controlling energy variation in permanent magnet motors,” IEEE Trans. Magnet., Vol. 37, pp. 2806–2809, 2001.
  • Islam, R., Husain, I, Fardoun, A., and McLaughlin, K., “Permanent magnet synchronous motor magnet designs with skewing for torque ripple and cogging torque reduction,” IEEE Trans. Ind. Appl., Vol. 45, pp. 152–160, 2009.
  • Parsa, L., and Hao, L., “Interior permanent magnet motors with reduced torque pulsation,” IEEE Trans. Ind. Electron., Vol. 55, pp. 602–609, 2008.
  • Schlensok, C., Gracia, M.H., and Ameyer, K.H., “Combined numerical and analytical method for geometry optimization of a PM motor,” IEEE Trans. Magnet., Vol. 42, pp. 1211–1214, 2006.
  • Hwang, S.M., Eom, J.B., Hwang, G.B., Jeong, W.B., and Jung, Y.H., “Cogging torque and acoustic noise reduction in permanent magnet motors by teeth pairing,” IEEE Trans. Magnet., Vol. 36, pp. 3144–3146, 2000.
  • Kim, T.H., Won, S.H., Bong, K., and Lee, L., “Reduction of cogging torque in flux-reversal machine by rotor teeth pairing,” IEEE Trans. Magnet., Vol. 41, pp. 3964–3966, 2005.
  • Xintung, J., Jingwei, X., Yong, L., and Yongping, L., “Theoretical and simulation analysis of influences of stator tooth width on cogging torque of BLDC motors,” IEEE Trans. Magnet., Vol. 45, pp. 4601–4604, 2009.
  • Wang, Y., Jin, M.J., Fei, W.Z., and Shen, J.X., “Cogging torque reduction in permanent magnet flux-switching machines by rotor teeth axial pairing,” IET Elect. Power Appl., Vol. 4, pp. 500–506, 2009.
  • Wang, D., Wang, X., Yang, Y., and Zhang, R., “Optimization of magnetic pole shifting to reduce cogging torque in solid-rotor permanent-magnet synchronous motors,” IEEE Trans. Magnet., Vol. 46, pp. 1228–1234, 2010.
  • Markovic, M., Jufer, M., and Perriard, Y., “Reducing the cogging torque in brushless DC motors by using conformal mappings,” IEEE Trans. Magnet., Vol. 40, pp. 451–455, 2004.
  • Zarko, D., Ban, D., and Lipo, T.A., “Analytical calculation of magnetic field distribution in the slotted air gap of a surface permanent-magnet motor using complex relative air-gap permeance,” IEEE Trans. Magnet., Vol. 42, pp. 1828–1837, 2006.
  • Zarko, D., Ban, D., and Lipo, T.A., “Analytical solution for cogging torque in surface permanent-magnet motors using conformal mapping,” IEEE Trans. Magnet., Vol. 44, pp. 52–65, 2008.
  • Zhu, Z.Q., Chen, J.T., Wu, L.J., and Howe, D., “Influence of stator asymmetry on cogging torque of permanent magnet brushless machines,” IEEE Trans. Magnet., Vol. 44, pp. 3851–3854, 2008.
  • Sung, S.J., Park, S.J., and Jang, G.H., “Cogging torque of brushless DC motors due to the interaction between the uneven magnetization of a permanent magnet and tooth curvature,” IEEE Trans. Magnet., Vol. 47, pp. 1923–1928, 2011.
  • Chen, N., Ho, S.L., and Fu, W.N., “Optimization of permanent magnet surface shapes of electric motors for minimization of cogging torque using FEM,” IEEE Trans. Magnet., Vol. 46, pp. 2478–2481, 2010.
  • Fazil, M., and Rajagopal, K.R., “A novel air-gap profile of single-phase permanent-magnet brushless DC motor for starting torque improvement and cogging torque reduction,” IEEE Trans. Magnet., Vol. 46, pp. 3928–3932, 2010.
  • Fang, L., Kim, S., Kwon, S., and Hong, J., “Novel double-barrier rotor designs in interior-PM motor for reducing torque pulsation,” IEEE Trans. Magnet., Vol. 46, pp. 2183–2184, 2010.
  • Kang, G., Son, Y., Kim, G., and Hur, J., “A novel cogging torque reduction method for interior-type permanent-magnet motor,” IEEE T Ind. Appl., Vol. 45, pp. 161–167, 2009.
  • Zhang, J, Cheng, M., and Chen, Z., “Optimal design of stator interior permanent magnet machine with minimized cogging torque for wind power application,” Energy Convers. Manag., Vol. 49, pp. 2100–2105, 2008.
  • González, D.A., Tapia, J.A., and Bettancourt, A.L., “Design consideration to reduce cogging torque in axial flux permanent-magnet machines,” IEEE Trans. Magnet., Vol. 43, pp. 3435–3440, 2007.
  • Letelier, A.B., González, D.A., and Tapia, J.A., “Cogging torque reduction in an axial flux PM machine via stator slot displacement and skewing,” IEEE Trans. Ind. Appl., Vol. 43, pp. 685–693, 2007.
  • Lateb, R., Takorabet, N., and Meibody-Tabar, F., “Effect of magnet segmentation on the cogging torque in surface-mounted permanent-magnet motors,” IEEE Trans. Magnet., Vol. 42, pp. 442–445, 2006.
  • Kim, M.Y., Kim, Y.C., and Kim, G.T., “Design of slotless-type PMLSM for high power density using divided PM,” IEEE Trans. Magnet., Vol. 40, pp. 746–749, 2004.
  • Isfahani, A.H., “Analytical framework for thrust enhancement in permanent magnet (PM) linear synchronous motors with segmented PM poles,” IEEE Trans. Magnet., Vol. 46, pp. 1116–1122, 2010.
  • Ede, J.D., Atallah, K., and Jewell, G.W., “Effect of axial segmentation of permanent magnets on rotor loss in modular permanent-magnet brushless machines,” IEEE Trans. Ind. Appl., Vol. 43, pp. 1207–1213, 2007.
  • Shah, M.R., and El-Refaie, A.M., “Eddy-current loss minimization in conducting sleeves of surface PM machine rotors with fractional-slot concentrated armature windings by optimal axial segmentation and copper cladding,” IEEE Trans. Ind. Appl., Vol. 45, pp. 720–728, 2009.
  • Yamazaki, K., Shina, M., Kanou, Y., Miwa, M., and Hagiwara, J., “Effect of eddy current loss reduction by segmentation of magnets in synchronous motors: Different between interior and surface types,” IEEE Trans. Magnet., Vol. 45, pp. 4756–4759, 2009.
  • Huang, W.Y., Bettayeb, A., Kaczmarek, R., and Vannier, J.C., “Optimization of magnet segmentation for reduction of eddy-current losses in permanent magnet synchronous machines,” IEEE Trans. Energy Convers., Vol. 25, pp. 381–387, 2010.
  • Montgomery, D.C., Design and Analysis of Experiments,2nd ed., New York: Wiley, 1984.
  • Xiuhe, W., Yubo, Y., and Dajin, F., “Study of cogging torque in surface-mounted permanent motors with energy method,” J. Magn. Magn. Mater., Vol. 267, pp. 80–85, 2003.

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