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A Design Strategy for Vibration Reduction in a Dual-Stator PMSM Based on Combined Mechanical-Electrical Shifting

Authors
Kang, Young-JaeSong, Cheon-HoBae, Byeong-CheolKim, Dae-KeeLim, Myung-Seop
Issue Date
Feb-2026
Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
Keywords
Dual stator; electromagnetic force; urban air mobility (UAM); vibration characteristic
Citation
IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION, v.12, no.1, pp 1272 - 1282
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION
Volume
12
Number
1
Start Page
1272
End Page
1282
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211422
DOI
10.1109/TTE.2025.3627173
ISSN
2372-2088
2332-7782
Abstract
A dual-stator permanent magnet synchronous motor offers both structural and electrical redundancy, making it suitable for high-reliability applications such as urban air mobility. To address vibration issues that reduce the reliability of propulsion systems, this study proposed a combined mechanical-electrical shifting method that combines mechanical stator shifting with electrical phase adjustment of armature currents. To determine the optimum stator shift angle for effective vibration reduction, the radial air-gap electromagnetic force density (AEFD), which is the primary cause of vibration, was analytically derived from the spatial harmonics of the radial air-gap magnetic flux density. The variation in AEFD with respect to the stator shift angle and current amplitude was analyzed, and the resulting stator deformation was evaluated using finite element analysis. Experimental validation was conducted to verify the stator shift angle that resulted in the minimum deformation and to confirm the trend of deformation variation. The proposed method enables the identification of an optimum stator shift angle that reduces vibration while maintaining torque and efficiency.
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Lim, Myung Seop
COLLEGE OF ENGINEERING (DEPARTMENT OF AUTOMOTIVE ENGINEERING)
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