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Various design techniques to reduce cogging torque by controlling energy variation in permanent magnet motors. Sang-Moon Hwang,Jae-Boo Eom,Yoong-Ho Jung,et al. IEEE Transactions on Magnetics . 2001
[3]
Issues in reducing the cogging torque of mass-produced permanent-magnet brushless DC motor. Islam M S,Mir S,Sebastian T. IEEE Trans.on Industry applications . 2004
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Pulsating TorqueM inim ization Techniques for PermanentMagnetAC Motor D rives-A Review. ThomasMJakus,,W en L. Soong. IEEE Transactions on Industrial Electronics . 1996
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Design con-siderations of sinusoidally excited permanent-magnetmachines for low-torque-ripple applications. Mohammad S I,Sayeed M,Tomy S,et al. IEEETrans on Industry Applications . 2005
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Design techniques for reducingthe cogging torque in surface-mounted PM motors. Bianchi N,Bolognani S. IEEE Transactions on Industry Applications . 2002
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Dual-rotor,radial-flux,toroidally-wound,permanent-magnet machines. Qu R H,Lipo T A. Industry Ap-plications,IEEE Transactions . 2003
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Optimalcurrent control strategies for surface-mounted perma-nent-magnet synchronous machine drives. Chapman P L,Sudhoff S D,Whitcomb C A. IEEETrans on Mangetics . 1999
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Comparison of PM brush-less motors,having either all teeth or alternate teethwound. Ishak D,Zhu Z Q,Howe D. IEEE Transactions on Energy Conversion . 2006