Design and analysis of a new hybrid excitation vernier motor with reduced permanent magnet
This article presents the investigation of a new permanent magnet (PM) reduced hybrid excitation wound field vernier motor with Halbach PM array. The flux interaction between tangentially magnetized PMs and the field winding is analyzed. It is found that the flux contribution from the field winding...
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sg-ntu-dr.10356-1820902025-01-10T15:44:04Z Design and analysis of a new hybrid excitation vernier motor with reduced permanent magnet Zhu, Jingwei Yuan, Xin Xie, Shuangchun Zhao, Chenhao Shen, Fawen Chen, Jiahao Lee, Christopher Ho Tin School of Electrical and Electronic Engineering Engineering Finite element analysis Hybrid excitation This article presents the investigation of a new permanent magnet (PM) reduced hybrid excitation wound field vernier motor with Halbach PM array. The flux interaction between tangentially magnetized PMs and the field winding is analyzed. It is found that the flux contribution from the field winding is enhanced due to the reduced magnetic saturation in the rotor poles. Meanwhile, the air gap flux density from the PMs is improved because of the existence of magnetomotive force (MMF) from the field winding. Under load condition, the interaction between PMs and q axis armature current further enhances the PM flux in the air gap. As a result, the torque performance is significantly upgraded. Then, a small amount of radially magnetized PM is added in the rotor pole to form the Halbach PM array and additionally increases the flux concentration effect. The proposed design is compared with a conventional surface Halbach PM array vernier motor in torque density, torque ripple, PM utilization and no load back EMF. The result shows that the proposed topology exhibits 4% higher torque density, lower torque ripple, 75% higher PM utilization and 35% reduced no load back EMF. Finally, a prototype is manufactured to confirm the validity of the proposed idea. Ministry of Education (MOE) Submitted/Accepted version This work was supported in part by the Panasonic Industrial Devices Singapore Pte. Ltd., Singapore, through its Joint Lab Programme under Grant 04IDS001408C140 and in part by the Ministry of Education, Singapore, though its Academic Research Fund (AcRF) Tier 1 Program under Grant 2021-T1-002-074. 2025-01-09T03:05:33Z 2025-01-09T03:05:33Z 2024 Journal Article Zhu, J., Yuan, X., Xie, S., Zhao, C., Shen, F., Chen, J. & Lee, C. H. T. (2024). Design and analysis of a new hybrid excitation vernier motor with reduced permanent magnet. IEEE Transactions On Transportation Electrification, 10(4), 8400-8412. https://dx.doi.org/10.1109/TTE.2024.3352822 2332-7782 https://hdl.handle.net/10356/182090 10.1109/TTE.2024.3352822 2-s2.0-85182939314 4 10 8400 8412 en 04IDS001408C140 MOE-2021-T1-002-074 IEEE Transactions on Transportation Electrification © 2024 IEEE. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1109/TTE.2024.3352822. application/pdf |
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Engineering Finite element analysis Hybrid excitation |
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Engineering Finite element analysis Hybrid excitation Zhu, Jingwei Yuan, Xin Xie, Shuangchun Zhao, Chenhao Shen, Fawen Chen, Jiahao Lee, Christopher Ho Tin Design and analysis of a new hybrid excitation vernier motor with reduced permanent magnet |
| description |
This article presents the investigation of a new permanent magnet (PM) reduced hybrid excitation wound field vernier motor with Halbach PM array. The flux interaction between tangentially magnetized PMs and the field winding is analyzed. It is found that the flux contribution from the field winding is enhanced due to the reduced magnetic saturation in the rotor poles. Meanwhile, the air gap flux density from the PMs is improved because of the existence of magnetomotive force (MMF) from the field winding. Under load condition, the interaction between PMs and q axis armature current further enhances the PM flux in the air gap. As a result, the torque performance is significantly upgraded. Then, a small amount of radially magnetized PM is added in the rotor pole to form the Halbach PM array and additionally increases the flux concentration effect. The proposed design is compared with a conventional surface Halbach PM array vernier motor in torque density, torque ripple, PM utilization and no load back EMF. The result shows that the proposed topology exhibits 4% higher torque density, lower torque ripple, 75% higher PM utilization and 35% reduced no load back EMF. Finally, a prototype is manufactured to confirm the validity of the proposed idea. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhu, Jingwei Yuan, Xin Xie, Shuangchun Zhao, Chenhao Shen, Fawen Chen, Jiahao Lee, Christopher Ho Tin |
| format |
Article |
| author |
Zhu, Jingwei Yuan, Xin Xie, Shuangchun Zhao, Chenhao Shen, Fawen Chen, Jiahao Lee, Christopher Ho Tin |
| author_sort |
Zhu, Jingwei |
| title |
Design and analysis of a new hybrid excitation vernier motor with reduced permanent magnet |
| title_short |
Design and analysis of a new hybrid excitation vernier motor with reduced permanent magnet |
| title_full |
Design and analysis of a new hybrid excitation vernier motor with reduced permanent magnet |
| title_fullStr |
Design and analysis of a new hybrid excitation vernier motor with reduced permanent magnet |
| title_full_unstemmed |
Design and analysis of a new hybrid excitation vernier motor with reduced permanent magnet |
| title_sort |
design and analysis of a new hybrid excitation vernier motor with reduced permanent magnet |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182090 |
| _version_ |
1821237157127258112 |