Title :
Optimal design of PM motors for quasi-sinusoidal air-gap flux density
Author :
Chaithongsuk, S. ; Takorabet, N. ; Nahid-Mobarakeh, B. ; Meibody-Tabar, F.
Author_Institution :
INPL-GREEN, Nancy Univ., Nancy, France
fDate :
Aug. 31 2010-Sept. 3 2010
Abstract :
This paper presents an optimal design method for the rotor structure of permanent magnet synchronous motor by using Finite Element Method (FEM) combined with Pulse Width Modulation (PWM). The PWM technique is applied to the shape of the surface of the solid iron rotor and the magnets are buried. Calculation is straightforward and show that the radial air-gap flux density harmonics are eliminated leading to almost sinusoidal air-gap flux density. The well known Field Orientated Control (FOC) strategy is applied to control the machine. It is reinforced by a proper field weakening strategy for high speed applications. Simulation results on the entire speed range are satisfactory. In addition, analysis of the harmonics content of air-gap flux density, back-EMF and torque waveform is given and verifies the above claim.
Keywords :
air gaps; finite element analysis; machine control; magnetic flux; permanent magnet motors; synchronous motors; PM motors optimal design; PWM technique; back-EMF waveform; field orientated control strategy; finite element method; high speed application; machine control; permanent magnet synchronous motor; pulse width modulation; quasi sinusoidal air gap flux density; radial air gap flux density harmonic content; sinusoidal air gap flux density; solid iron rotor structure; torque waveform; Air gaps; Harmonic analysis; Iron; Magnetic flux; Pulse width modulation; Rotors; Shape; Direct drive; FEM; FOC; Field weakening; PM Motor; Pulse width modulation (PWM); radial air-gap flux density; variable speed control;
Conference_Titel :
Universities Power Engineering Conference (UPEC), 2010 45th International
Conference_Location :
Cardiff, Wales
Print_ISBN :
978-1-4244-7667-1
