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Optimal design of high-precision maglev system using simulation-based DOE and FEM

Authors
Lee, HyungwooLee, SungguWon, Seong-hoon PeterLee, Ju
Issue Date
Sep-2006
Publisher
Institute of Electrical Engineers
Citation
IEE Proceedings: Electric Power Applications, v.153, no.5, pp 773 - 779
Pages
7
Indexed
SCIE
SCOPUS
Journal Title
IEE Proceedings: Electric Power Applications
Volume
153
Number
5
Start Page
773
End Page
779
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/181047
DOI
10.1049/ip-epa:20050317
ISSN
1350-2352
Abstract
An optimal design for improving performance of high-precision maglev (magnetic levitation) systems in semiconductor manufacturing is presented. Motor performance for various design schemes such as thickness and magnetising patterns of the permanent magnets, pole pitch, length of airgap, turns number of windings, and thickness of the air core has been investigated in detail by using the FEM (finite-element method). The simulation-based DOE (design of experiments) method is also applied to reduce the large amount of analysis according to each design variable and consider the effect among variables. The optimal design in all aspects is proposed by an optimisation algorithm using a regression equation derived from the simulation-based DOE and the performance is verified by FEM.
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