Title :
Interior composite-rotor controllable-flux PMSM - memory motor
Author :
Yiguang, Chen ; Wei, Pan ; Ying, Wang ; Renyuan, Tang ; Jing, Wang
Author_Institution :
Shenyang Univ. of Technol., China
Abstract :
A new class of interior composite-rotor controllable-flux permanent magnet synchronous machine (PMSM) for true wide-speed operation is proposed. It can operate in wide-speed without overmuch armature loss and sacrifices in other machine characteristics. The tangential-set permanent magnets (PMs) are NdFeB that has high remanent flux density Br and high coercive force H. The radial-set PMs are AlNiCo that has high Br and low H. By applying the pulse of d-axis stator current vector id, the magnetized intensity and direction of AlNiCo can be controlled. The flux created by NdFeB is repelled by AlNiCo to stator and air-gap PM-flux is intensified, or is partially bypassed by AlNiCo in the rotor and the air-gap PM-flux is weakened. The structure can adapt for memory motor with more pole-pairs. The interior magnetic field distribution in two extreme magnetized conditions was analyzed by finite element method. And the proposed assumption is proved.
Keywords :
air gaps; aluminium alloys; boron alloys; cobalt alloys; coercive force; finite element analysis; iron alloys; machine control; magnetic fields; magnetic flux; neodymium alloys; nickel alloys; permanent magnet machines; permanent magnets; rotors; synchronous machines; AlNiCo; NdFeB; air-gap PM-flux; controllable-flux PMSM; d-axis stator current vector; finite element method; high coercive force; high remanent flux density; interior composite-rotor; magnetic field distribution; magnetized intensity; memory motor; tangential-set permanent magnets; Air gaps; Coercive force; Force control; Magnetic flux; Permanent magnet machines; Permanent magnet motors; Permanent magnets; Rotors; Stators; Synchronous motors;
Conference_Titel :
Electrical Machines and Systems, 2005. ICEMS 2005. Proceedings of the Eighth International Conference on
Print_ISBN :
7-5062-7407-8
DOI :
10.1109/ICEMS.2005.202566
