High-Performance Low-Cost Electric Motor for Electric Vehicles Using Ferrite Magnets

Permanent-magnet motors with rare-earth magnets are among the best candidates for high-performance applications such as automotive applications. However, due to their cost and risks relating to the security of supply, alternative solutions such as ferrite magnets have recently become popular. In thi...

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Veröffentlicht in:	IEEE transactions on industrial electronics (1982) 2016-01, Vol.63 (1), p.113-122
Hauptverfasser:	Kimiabeigi, M., Widmer, J. D., Long, R., Gao, Y., Goss, J., Martin, R., Lisle, T., Soler Vizan, J. M., Michaelides, A., Mecrow, B.
Format:	Artikel
Sprache:	eng
Schlagworte:	Demagnetization Design engineering Electric Vehicle (EV) Electric vehicles Ferrite Ferrite Magnet Ferrites Finite Element (FE) Flux High Speed Magnetic circuits Magnetic flux Magnets Permanent magnet motors Power Density Rare earth metals Rotors Spoke Topology Torque
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container_title	IEEE transactions on industrial electronics (1982)
container_volume	63
creator	Kimiabeigi, M. Widmer, J. D. Long, R. Gao, Y. Goss, J. Martin, R. Lisle, T. Soler Vizan, J. M. Michaelides, A. Mecrow, B.
description	Permanent-magnet motors with rare-earth magnets are among the best candidates for high-performance applications such as automotive applications. However, due to their cost and risks relating to the security of supply, alternative solutions such as ferrite magnets have recently become popular. In this paper, the two major design challenges of using ferrite magnets for a high-torque-density and high-speed application, i.e., their low remanent flux density and low coercivity, are addressed. It is shown that a spoke-type design utilizing a distributed winding may overcome the torque density challenge due to a simultaneous flux concentration and a reluctance torque possibility. Furthermore, the demagnetization challenge can be overcome through the careful optimization of the rotor structure, with the inclusion of nonmagnetic voids on the top and bottom of the magnets. To meet the challenges of a high-speed operation, an extensive rotor structural analysis has been undertaken, during which electromagnetics and manufacturing tolerances are taken into account. Electromagnetic studies are validated through the testing of a prototype, which is custom built for static torque and demagnetization evaluation. The disclosed motor design surpasses the state-of-the-art performance and cost, merging the theories into a multidisciplinary product.
doi_str_mv	10.1109/TIE.2015.2472517
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Furthermore, the demagnetization challenge can be overcome through the careful optimization of the rotor structure, with the inclusion of nonmagnetic voids on the top and bottom of the magnets. To meet the challenges of a high-speed operation, an extensive rotor structural analysis has been undertaken, during which electromagnetics and manufacturing tolerances are taken into account. Electromagnetic studies are validated through the testing of a prototype, which is custom built for static torque and demagnetization evaluation. 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The disclosed motor design surpasses the state-of-the-art performance and cost, merging the theories into a multidisciplinary product.</description><subject>Demagnetization</subject><subject>Design engineering</subject><subject>Electric Vehicle (EV)</subject><subject>Electric vehicles</subject><subject>Ferrite</subject><subject>Ferrite Magnet</subject><subject>Ferrites</subject><subject>Finite Element (FE)</subject><subject>Flux</subject><subject>High Speed</subject><subject>Magnetic circuits</subject><subject>Magnetic flux</subject><subject>Magnets</subject><subject>Permanent magnet motors</subject><subject>Power Density</subject><subject>Rare earth metals</subject><subject>Rotors</subject><subject>Spoke</subject><subject>Topology</subject><subject>Torque</subject><issn>0278-0046</issn><issn>1557-9948</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNpFkE1PAjEURRujiYjuTdzM0s1gX79ZGoJCAtEFuG1KeQM1wxTbIcZ_7xCIbt5NXs69i0PIPdABAB0-LabjAaMgB0xoJkFfkB5IqcvhUJhL0qNMm5JSoa7JTc6flIKQIHtkMQmbbfmOqYpp5xqPxSx-l6OY22Jco29T8MU8tjEVHfD_-sBt8DXmYplDsyleMKXQYjF3mwbbfEuuKldnvDtnnyxfxovRpJy9vU5Hz7PScyPbUvK154iiOwAgV4iGauGUVLRSK1pJz8AJxsCvjKkMF3rtnKTerc2QKyV5nzyedvcpfh0wt3YXsse6dg3GQ7agjQIljRQdSk-oTzHnhJXdp7Bz6ccCtUeBthNojwLtWWBXeThVAiL-4ZoxJjjnv_VAa7U</recordid><startdate>201601</startdate><enddate>201601</enddate><creator>Kimiabeigi, M.</creator><creator>Widmer, J. 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In this paper, the two major design challenges of using ferrite magnets for a high-torque-density and high-speed application, i.e., their low remanent flux density and low coercivity, are addressed. It is shown that a spoke-type design utilizing a distributed winding may overcome the torque density challenge due to a simultaneous flux concentration and a reluctance torque possibility. Furthermore, the demagnetization challenge can be overcome through the careful optimization of the rotor structure, with the inclusion of nonmagnetic voids on the top and bottom of the magnets. To meet the challenges of a high-speed operation, an extensive rotor structural analysis has been undertaken, during which electromagnetics and manufacturing tolerances are taken into account. Electromagnetic studies are validated through the testing of a prototype, which is custom built for static torque and demagnetization evaluation. 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subjects	Demagnetization Design engineering Electric Vehicle (EV) Electric vehicles Ferrite Ferrite Magnet Ferrites Finite Element (FE) Flux High Speed Magnetic circuits Magnetic flux Magnets Permanent magnet motors Power Density Rare earth metals Rotors Spoke Topology Torque
title	High-Performance Low-Cost Electric Motor for Electric Vehicles Using Ferrite Magnets
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