Analytical Determination of Optimal Split Ratio of E-Core Permanent Magnet Linear Oscillating Actuators

Author

Chen, X. ; Zhu, Z.Q.

Author_Institution

Dept. of Electron. & Electr. Eng., Univ. of Sheffield, Sheffield, UK

Volume

47

Issue

1

fYear

2011

Firstpage

25

Lastpage

33

Abstract

The split ratio, i.e., the ratio of stator bore radius to stator outer radius, is an important design parameter for permanent-magnet (PM) linear machines, as it significantly influences the thrust force capability and efficiency. The optimal split ratio for maximum thrust force is investigated analytically for both surface-mounted PM (SPM) and interior PM (IPM) E-core linear oscillating actuators. It utilizes simple lumped magnetic circuit models and accounts for the magnetic saturation, the curvature effect, the fringing effect, and the armature reaction effect which may greatly affect the accuracy of the analytical model for the optimal split ratio. The optimal split ratio for both SPM and IPM prototype actuators is found to be around 0.55. The developed analytical models are validated by both finite-element analyses and measurements.

Keywords

electric actuators; finite element analysis; linear machines; magnetic circuits; permanent magnet machines; stators; IPM; SPM; armature reaction effect; curvature effect; e-core; finite element analyses; fringing effect; interior PM; lumped magnetic circuit; magnetic saturation; optimal split ratio; oscillating actuators; permanent magnet linear machines; stator; surface-mounted PM; thrust force; Actuators; Air gaps; Analytical models; Force; Magnetic flux; Saturation magnetization; Stators; Actuator; linear motor; oscillating actuator; permanent magnet (PM); split ratio; tubular machine;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/TIA.2010.2090840

Filename

5620966