Design optimization for torque ripple minimization and poles cost reduction with hybrid permanent magnets

Author

Bianchini, Claudio ; Davoli, Matteo ; Immovilli, Fabio ; Lorenzani, Emilio

Author_Institution

DISMI - Univ. of Modena & Reggio Emilia, Modena, Italy

fYear

2014

Firstpage

483

Lastpage

489

Abstract

This paper presents design strategies for the optimized design of the rotor poles in synchronous permanent magnet machines. The strategies are aimed at the reduction of torque ripple and cogging torque. Sinusoidally rounded magnet and rotor step-skewing are investigated, then a new proposal to reduce the cost of magnetic pole made in rare earth is presented. The goal is to introduce into a rotor pole, a fraction of low cost ferrite magnets on either side of the main rare earth NdFeB permanent magnet. The design procedure begins with some analytical consideration that allows to optimize the geometrical design of the magnets. Using Finite Element (FE) simulations, the effectiveness of the analytical model is verified and the results of the various methods are compared.

Keywords

finite element analysis; iron compounds; neodymium compounds; permanent magnet machines; permanent magnets; rotors; synchronous machines; torque; NdFeB; cogging torque; ferrite magnets; finite element simulations; permanent magnets; poles cost reduction; rare earth permanent magnet; rotor poles; rotor step-skewing; sinusoidally rounded magnet; synchronous permanent magnet machines; torque ripple minimization; torque ripple reduction; Ferrites; Forging; Harmonic analysis; Magnetic flux; Rotors; Torque; Brushless machines; cogging torque; cost reduction; ferrite; permanent magnets design; sinusoidally rounded magnet; skewing; torque ripple;

fLanguage

English

Publisher

ieee

Conference_Titel

Industrial Electronics Society, IECON 2014 - 40th Annual Conference of the IEEE

Type

conf

DOI

10.1109/IECON.2014.7048544

Filename

7048544