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Improvement of torque performance and energy density of pm-type vernier motor utilizing saddle coil and salient pole

Title
Improvement of torque performance and energy density of pm-type vernier motor utilizing saddle coil and salient pole
Author(s)
Chang, SungwooNiguchi, NoboruLee, Je-HoonHirata, Katsuhiro
Issued Date
2021-03
Citation
Applied Sciences, v.11, no.6
Type
Article
Author Keywords
Finite element analysisHigh torqueLow speedOptimized designPermanent magnetSaddle coilSalient poleVernier motor
ISSN
2076-3417
Abstract
In electric motors, the use of rare-earth magnets has been increasing rapidly. A stronger magnet force of the magnet enables the motor’s higher performance, resulting in the most high-performance motors generally using rare-earth magnets. However, these magnets have two crucial disadvantages: The potential restrictions on the supply of rare-earth magnetic materials and the sharp fluctuation in price. Thus, many recent researches focus on developing high-performance electric motors and reducing the use of critical rare-earth magnets. By increasing the torque density of the motor, we can reduce the use of permanent magnets. Focusing on this point, and we presented a double half permanent magnet (DHPM)-type vernier motor. This paper proposed a new saddle coil permanent magnet vernier motor with improved performance compared to its predecessor. The main feature of the proposed motor is that the permanent magnet and coil in the stator of a DHPM-type vernier motor is replaced by salient poles and saddle coils, respectively. We also investigate its characteristics through various simulations. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.
URI
http://hdl.handle.net/20.500.11750/15409
DOI
10.3390/app11062818
Publisher
MDPI AG
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