Authors: Mohamed Moustafa Mahmoud Sedky

Abstract:

In Line start permanent magnet synchronous motor,  eccentricity is a common fault that can make it necessary to remove  the motor from the production line. However, because the motor may  be inaccessible, diagnosing the fault is not easy. This paper presents  an FEM that identifies different models, static eccentricity, dynamic  eccentricity, and mixed eccentricity, at no load and full load. The  method overcomes the difficulty of applying FEMs to transient  behavior. It simulates motor speed, torque and flux density  distribution along the air gap for SE,DE, and ME. This paper  represents the various effects of different eccentricitiestypes on the  transient performance.

Keywords: Line Start Permanent magnet, synchronous machine, Static Eccentricity, Dynamic Eccentricity, Mixed Eccentricity.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1336192

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References:

[1] F. Libert, J. Soulard, and J. Engstrom, "Design of a 4-pole line start permanent magnet synchronous motor,” Proc. ICEM 2002, Brugge, Belgium, Aug. 2002.
[2] J. Soulard and H.P. Nee, "Study of the synchronization of line-start permanent magnet synchronous motors,” Proc. of 2000 IEEE Ind. Appl. Conf., Roma, 8-12 Oct. 2000, vol. 1, pp. 424–431.
[3] K. Kurihara and A. Rahman, "High-efficiency linestart interior permanent-magnet synchronous motors,” IEEE Trans. Ind. Appl., vol. 40, no. 3, May/Jun. 2004,pp.789–796..
[4] E. Peralta-Sanchez and A.C. Smith, "Line-start permanent-magnet machines using a canned rotor,” Proc. IEMDC 2007, 3-5 May 2007, vol. 2, pp. 1084–1089.
[5] J. Salo, T. Heikkila, J. Pyrhonen, "New low-speed high-torque permanent magnet synchronous machine with buried magnets,” Proc. ICEM 2000, 28-30August, 2000, Espoo, Finland, vol.2, pp.1246-1250.
[6] A. Abbas, H.A. Yousef, O.A. Sebakhy, "FEParameters Sensitivity Analysis of an Industrial LSInterior PM Synchronous Motor,” IEEE Power and Energy Society General Meeting – Conversion andDelivery of Electrical Energy in the 21st Century, 20-24 July 2008 pp.1-6.
[7] T. Ding, N. Takorabet, F.M. Sargos, and X. Wang,"Design and Analysis of Different Line-Start PMSynchronous Motors for Oil-Pump Applications,”IEEE Trans. Magnetics, Vol. 45, No. 3, March 2009,pp. 1816-1819.
[8] W.H. Kim, K.C. Kim, S.J. Kim, et al., "A Study on the Optimal Rotor Design of LSPM Considering the Starting Torque and Efficiency,” IEEE Trans. Magnetics, Vol. 45, No. 3, March 2009, pp. 1808- 1811.
[9] D. Rodger, H.C. Lai, R.J. Hill-Cottingham, P.C. Coles and F. Robinson, "A new high efficiency line start motor with high starting torque,” Proc. Int. Conf. PEMD 2006, 4-6 April 2006, pp. 551–555.
[10] L. Weili, Z. Xiaochen, C. Shukang, C. Junci, "Study of Solid Rotor Line-Start PMSM Operating Performance,”Proc. ICEMS 2008, 17-20 Oct. 2008, pp.373-378.
[11] G. Yang, J. Ma, J.and Y. Wang, "Optimal Design and Experimental Verification of a Line-Start Permanent Magnet Synchronous Motor,”Proc.ICEMS 2008, 17-20 Oct. 2008, pp.:3232 – 3236.
[12] I.Tsuboi, I. Hirotsuka, T. Takegami, and M. Nakamura, "Basic Concept of an Analytical Calculation Method and Some Test Results for Determination of Constant of Line Start Permanent Magnet Motor,” Proc. ICEMS 2008, 17-20 Oct. 2008, pp. 3108-3111
[13] M. Comanescu, A. Keyham, and Min Dai, "Design and analysis of 42-V permanent-magnet generator for automotive applications,” IEEE Trans. Energy Conversion, Vol. 18, Issue 1, March 2003, pp. 107 – 112.
[14] D.C. Hanselman, Brushless Permanent-Magnet Motor Design. New York: McGraw-Hill, 1994.
[15] J.R. Hendershot and T.J. E. Miller, Design of Brushless Permanent-Magnet Motor. Oxford, U.K.,Magna Physics/Clarendon, 1994.
[16] Z. Bingyi, Z. Wei, Z. Fuyu, F. Guihong, "Design and Starting Process Analysis of Multipolar Line-Start PMSM,” Proc. ICEMS 2007, Seoul, 8-11 Oct., 2007, pp. 1629-1634.
[17] T. Miller, ”Synchronization of line-start permanentmagnet AC motor,” IEEE Trans. Power Apparatus and Systems, vol. PAS-103, July 1984, pp 1822-1828.
[18] T. Miller, ”Transient performance of permanent magnet AC machines,” IEEE IAS Annual Meeting 198 1, Philadelphia, pp. 500-503.
[19] A. M. Trzynadlosky, "Diagnostic of mechanical abnormalities in induction motor using instantaneous electric power,” in Proc. 1997 Int. Electr. Machines Drives Conf., Milwaukee, WI, pp. 91–93.
[20] H. A. Toliyat and S. Nandi, "Condition monitoring and fault diagnosis of electrical machines—A review,” in Proc. IEEE-IAS 1999 Annu. Meeting, Phoenix, AZ, Oct. 3–7, 1999, pp. 197–204.
[21] N. M. Elkasabgy, A. R. Eastman, and G. E. Dawson, "Detection of broken bar in the cage rotor on an induction machine,” IEEE Trans. Ind. Appl., vol. 28, no. 1, pp. 165–171, Jan./Feb. 1992.
[22] A. M. Trzynadlosky, "Diagnostic of mechanical abnormalities in induction motor using instantaneous electric power,” in Proc. 1997 Int. Electr. Machines Drives Conf., Milwaukee, WI, pp. 91–93.
[23] H. A. Toliyat and S. Nandi, "Condition monitoring and fault diagnosis of electrical machines—A review,” in Proc. IEEE-IAS 1999 Annu. Meeting, Phoenix, AZ, Oct. 3–7, 1999, pp. 197–204.
[24] N. M. Elkasabgy, A. R. Eastman, and G. E. Dawson, "Detection of broken bar in the cage rotor on an induction machine,” IEEE Trans. Ind. Appl., vol. 28, no. 1, pp. 165–171, Jan./Feb. 1992.