Paper Info
Title
Influence of Leading Design Parameters on the Force Performance of a Complementary and Modular Linear Flux-Switching Permanent-Magnet Motor
Abstract
This paper investigates the influence of some leading design parameters on the force performance of a new complementary and modular linear flux-switching permanent-magnet (LFSPM) motor. The originality of the proposed structure is that each phase consists of two “E”-shaped modules, whose positions are mutually 180 ° electrical degrees apart. Also, there is a flux barrier between the two modules. First, the structure and influence of some leading design parameters on the force performance of the complementary and modular LFSPM motor are analyzed. Then, a conventional LFSPM motor obtained directly from a rotary FSPM motor is optimized and compared with the complementary and modular LFSPM motor based on finite-element method. The results reveal that the proposed motor has sinusoidal and symmetrical three-phase back electromotive force waveforms and smaller cogging force and force ripple than the existing motors. Moreover, a prototype of the proposed motor is built to validate the study.
Year
DOI
Venue
2014
10.1109/TIE.2013.2271603
IEEE Transactions on Industrial Electronics
Keywords
Field
DocType
cogging force,complementary linear flux-switching permanent-magnet motor,leading design parameters,complementary and modular,linear flux-switching permanent-magnet (lfspm) motor,modular linear flux-switching permanent-magnet motor,linear motors,symmetrical three-phase back electromotive force waveforms,speed control,lfspm motor,force performance,permanent magnet motors,finite element analysis,rotary fspm motor,e-shaped modules,flux barrier,force ripple,finite-element method,linear motor,finite element method
Permanent magnet motor,Control theory,Waveform,Finite element method,Control engineering,Flux,Counter-electromotive force,Modular design,Engineering,Linear motor,Ripple
Journal
Volume
Issue
ISSN
61
5
0278-0046
Citations 
PageRank 
References 
14
1.11
6
Authors
4
Name
Order
Citations
PageRank
Ruiwu Cao1577.00
Ming Cheng233947.21
Chris Mi329535.32
W. Hua417434.94