International Journal of Electrical and Power Engineering
Year:
2011
Volume:
5
Issue:
1
Page No.
54 - 61
References
Cai, W., P. Pillay, Z. Tang and A.M. Omekanda, 2003. Low-vibration design of switched reluctance motors for automotive applications using modal analysis. IEEE Trans. Ind. Appl., 39: 971-977.
CrossRef | Cameron, D.E., J.H. Lang and S.D. Umans, 1992. The origin and reduction of acoustic noise in doubly salient variable-reluctance motors. IEEE Trans. Ind. Appl., 28: 1250-1255.
CrossRef | Colby, R.S., F.M. Mottier and T.J.E. Miller, 1996. Vibration modes and acoustic noise in a four-phase switched reluctance motor. IEEE Trans. Ind. Appl., 32: 1357-1364.
CrossRef | Hayaashi, Y. and T.J.E. Miller, 1995. A new approach to calculating core losses in the SRM. IEEE Trans. Ind. Appl., 31: 1039-1046.
CrossRef | Husain, I. and S.A. Hossain, 2005. Modeling, simulation and control of switched reluctance motor drives. IEEE Trans. Ind. Electron., 52: 1625-1634.
CrossRef | Husain, I., 2002. Minimization of torque ripple in SRM drives. IEEE Trans. Ind. Electron., 49: 28-39.
CrossRef | Islam, M.S., M.N. Anwar and I. Husain, 2003. Design and control of switched reluctance motors for wide-speed-range operation. IEEE Proc. Electr. Power Appl., 150: 425-430.
CrossRef | Lawrenson, P.J., J.M. Stephenson and P.T. Blenkinsop, 1980. Variable-speed switched reluctance motors. IEE Proc. B, Electr. Power Appl., 127: 253-265.
Direct Link | Miller, T.J.E., 2002. Optimal design of switched reluctance motors. IEEE Trans. Ind. Electron., 49: 15-27.
CrossRef | Omac, Z., 2006. Design of a new switched reluctance motor and its current control. Ph.D. Thesis, Firat University, Turkey.
Pillay, P., R.M. Samudio, M. Ahmed and R.T. Patel, 1995. A chopper-controlled SRM drive for reduced acoustic noise and improved ride-through capability using supercapacitors. IEEE Trans. Ind. Appl., 31: 1029-1038.
CrossRef | Pollock, C. and C.Y. Wu, 1997. Acoustic noise cancellation techniques for switched reluctance drivers. IEEE Trans. Ind. Appl., 33: 477-484.
CrossRef | Rasmussen, P.O., J.H. Andreasen and J.M. Pijanowski, 2004. Structural stator spacers-a solution for noise reduction of switched reluctance motors. IEEE Trans. Ind. Appl., 40: 574-581.
CrossRef | Russa, K., I. Husain and M.E. Elbuluk, 1998. Torque-ripple minimization in switched reluctance machines over a wide speed range. IEEE Trans. Ind. Appl., 34: 1105-1112.
CrossRef | Sanada, M., S. Morimoto, Y. Takeda and N. Matsui, 2000. Novel rotor pole design of switched reluctance motors to reduce the acoustic noise. Proceedings of the Industry Applications Conference, (IAC`00), Rome, pp: 107-113.
Srinivas, K.N. and R. Arumugam, 2005. Analysis and characterization of switched reluctance motors Part II flow thermal and vibration analyses. IEEE Trans. Magn., 41: 1321-1332.
Direct Link | Tang, Z., P. Pillay and A.M. Omekanda, 2003. Vibration prediction in switched reluctance motors with transfer function identification from shaker and force hammer tests. IEEE Trans. Ind. Appl., 39: 978-985.
CrossRef | Tang, Z., P. Pillay, Y. Chen and A.M. Omekanda, 2005. Prediction of electromagnetic forces and vibrations in SRMs operating at steady-state and transient speeds. IEEE Trans. Ind. Appl., 41: 927-934.
CrossRef | Vijayraghavan, P. and R. Krishnan, 1999. Noise in electric machines: A review. IEEE Trans. Ind. Appl., 35: 1007-1013.
CrossRef | Wallace, A.K., R. Sene and L.G. Martin, 1990. Current harmonics and acoustic noise in AC adjustable-speed drives. IEEE Trans. Ind. Appl., 26: 267-273.
CrossRef | Wu, C. and C. Pollock, 1995. Analysis and reduction of vibration and acoustic noise in the switched reluctance drive. IEEE Trans. Ind. Appl., 31: 91-98.