Indian Journal of Science and Technology

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Reliability Analysis of Permanent Magnet and Air-gap Flux Density of Spoke-type IPMSM for Driving Cooling Fans


Affiliations
1 Department of Electrical Engineering, Hanyang University, Seoul 133-791, Korea
2 Automotive Components R&D Department, Daedong Movel System Inc., Gyeonggi 429-851, Korea
3 Department of Electrical Energy Engineering, Keimyung University, Daegu 704-701, Korea
 

One of the key electrical components in a car, a motor has been actively studied based on its reliability. In recent years, as the proportion of the motor has increased in a car, development of the motor with a high output and a low price has been required. IPMSM can cause a high torque per unit current by using a reluctance torque generated from the difference in the magnetic resistance, which is suitable for the motor which requires a high output. In particular, since the spoke-type IPMSM with a concentrated flux structure can utilize non-rare earth metal-based ferrite magnets which are cheaper than rare earth metal-based permanent magnets such as neodymium, this can lower the motor price. In this paper, we study driving characteristics by analyzing the magnetic flux density and cogging torque that causes noise and vibration in accordance with the rotor shapes (Magnet, Rib) of the spoke-type IPMSM.

Keywords

Engine Cooling Fan, Fan Motor, Ferrite Magnet, Interior Permanent Magnet System Synchronous Motor (IPMSM), Spoke Type, Vehicle Motor
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  • Reliability Analysis of Permanent Magnet and Air-gap Flux Density of Spoke-type IPMSM for Driving Cooling Fans

Abstract Views: 156  |  PDF Views: 0

Authors

Yun-Soo Kim
Department of Electrical Engineering, Hanyang University, Seoul 133-791, Korea
Jun-Young Kim
Automotive Components R&D Department, Daedong Movel System Inc., Gyeonggi 429-851, Korea
Dong-Woo Kang
Department of Electrical Energy Engineering, Keimyung University, Daegu 704-701, Korea
Ju Lee
Department of Electrical Engineering, Hanyang University, Seoul 133-791, Korea

Abstract


One of the key electrical components in a car, a motor has been actively studied based on its reliability. In recent years, as the proportion of the motor has increased in a car, development of the motor with a high output and a low price has been required. IPMSM can cause a high torque per unit current by using a reluctance torque generated from the difference in the magnetic resistance, which is suitable for the motor which requires a high output. In particular, since the spoke-type IPMSM with a concentrated flux structure can utilize non-rare earth metal-based ferrite magnets which are cheaper than rare earth metal-based permanent magnets such as neodymium, this can lower the motor price. In this paper, we study driving characteristics by analyzing the magnetic flux density and cogging torque that causes noise and vibration in accordance with the rotor shapes (Magnet, Rib) of the spoke-type IPMSM.

Keywords


Engine Cooling Fan, Fan Motor, Ferrite Magnet, Interior Permanent Magnet System Synchronous Motor (IPMSM), Spoke Type, Vehicle Motor



DOI: https://doi.org/10.17485/ijst%2F2016%2Fv9i14%2F132402