Title :
Comparison of magnetic forces for IPM and SPM motor with rotor eccentricity
Author :
Kim, Kyung-Tae ; Kim, Kwang-Suk ; Hwang, Sang-Moon ; Kim, Tae-Jong ; Jung, Yoong-Ho
Author_Institution :
Sch. of Mech. Eng., Pusan Nat. Univ., South Korea
fDate :
9/1/2001 12:00:00 AM
Abstract :
The permanent magnet motor is often the most important element in many precision rotor applications and also a frequent source of vibration and acoustic noise. The eccentricity between stator and rotor is inevitably introduced during manufacturing process, such as mass unbalance, shaft bow and bearing tolerances. This paper investigates radial force density and magnetic unbalanced force for IPM and SPM motors when rotor eccentricity exists. For the magnetic field analysis, a finite element method is used to account for the magnetic saturation and rotor eccentricity. The radial force density and magnetic unbalanced force are analyzed by Maxwell stress tensor and discrete Fourier transform. An IPM BLDC motor, mostly chosen to realize high speed operation, is significantly affected by rotor eccentricity due to magnetic saturation
Keywords :
brushless DC motors; discrete Fourier transforms; finite element analysis; machine theory; magnetic forces; permanent magnet motors; rotors; BLDC motor; IPM motor; Maxwell stress tensor; SPM motor; acoustic noise; bearing tolerance; discrete Fourier transform; finite element method; high-speed operation; interior permanent magnet motor; magnetic field; magnetic force; magnetic saturation; magnetic unbalanced force; manufacturing process; mass unbalance; radial force; rotor eccentricity; shaft bow; surface mounted permanent magnet motor; vibration; Acoustic noise; Magnetic analysis; Magnetic forces; Magnetic levitation; Manufacturing processes; Permanent magnet motors; Rotors; Saturation magnetization; Scanning probe microscopy; Stators;
Journal_Title :
Magnetics, IEEE Transactions on
