Title :
A Novel Linear Permanent-Magnet Vernier Machine With Improved Force Performance
Author :
Jinghua Ji ; Wenxiang Zhao ; Zhuoya Fang ; Jianxing Zhao ; Jihong Zhu
Author_Institution :
Sch. of Electr. & Inf. Eng., Jiangsu Univ., Zhenjiang, China
Abstract :
In this paper, a linear permanent-magnet vernier machine is proposed, in which both magnets and armature windings are placed in the short mover, while the long stator consists of an iron core only. Hence, it is suitable for long-stroke applications such as urban rail transit. The proposed machine integrates two magnetization directions of magnets together, which can reduce leakage flux and enhance flux density. Meanwhile, since different topologies and different slot/pole number combinations have an effect on the winding factor, several general rules are established. It is revealed that the thrust force ripple of the proposed machine is lower than its cogging force ripple, which is explained by a built analytical model. Both the analytical model and the finite-element results are validated by experiments based on a prototype machine.
Keywords :
finite element analysis; linear machines; magnetic cores; magnetic flux; magnetic leakage; magnetisation; permanent magnet machines; permanent magnets; prototypes; stators; armature windings; cogging force ripple; finite-element analysis; flux density; iron core; leakage flux; linear permanent-magnet vernier machine; magnetization; prototype machine; slot-pole number combinations; stator; thrust force ripple; urban rail transit; winding factor; Coils; Force; Harmonic analysis; Magnetic flux; Stator windings; Windings; Linear machine; Permanent-magnet machine; linear machine; modeling; permanent-magnet (PM) machine; reluctance force; vernier structure; winding factor;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2416123
