Title :
Rotor Flux-Barrier Geometry Design to Reduce Stator Iron Losses in Synchronous IPM Motors Under FW Operations
Author :
Barcaro, Massimo ; Bianchi, Nicola ; Magnussen, Freddy
Author_Institution :
Dept. of Electr. Eng., Univ. of Padova, Padova, Italy
Abstract :
The interior permanent-magnet (IPM) synchronous motor is characterized by a high rotor anisotropy. Such an anisotropy is the cause of a high harmonic content of the air-gap flux density distribution, almost independent of the main flux. As a consequence, there are fluctuations of the flux density in the stator iron and, consequently, eddy-current iron losses. This aspect is prominently evident during flux-weakening operations, when the armature current weakens the permanent magnet flux and the motor runs above the base speed. This paper presents a complete study of such a phenomenon, including an analytical model and a finite element validation, as well as an experimental confirmation of the predicted stator tooth flux waveforms. Finally, some suggestions are given in order to design an IPM motor exhibiting reduced iron losses during all operating conditions.
Keywords :
air gaps; eddy current losses; finite element analysis; permanent magnet motors; synchronous motors; FW operations; air-gap flux density distribution; armature current; eddy-current iron losses; experimental confirmation; finite element validation; flux-weakening operations; harmonic content; interior permanent magnet synchronous motor; rotor anisotropy; rotor flux-barrier geometry design; stator iron loss reduction; stator tooth flux waveforms; synchronous IPM motors; Analytical models; Anisotropic magnetoresistance; Eddy currents; Fluctuations; Geometry; Harmonic analysis; Iron; Permanent magnet motors; Rotors; Stator windings; Stators; Synchronous motors; Teeth; Iron losses; permanent-magnet machines; reluctance machines; synchronous machines; variable-speed drives;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2010.2060175
