Optimal Design a Flux-Switching PM Motor with Soft Composite Material Core for Applying to High-Speed Spindle Motor

Optimal Design a Flux-Switching PM Motor with Soft Composite Material Core for Applying to High-Speed Spindle Motor

碩士 === 高苑科技大學 === 電機工程研究所 === 105 === Spindle motor is one of the importance core parts in many industrial machines. The performance requirements of a spindle motor are sufficient torque at high-speed operation, high power density, more wide speed range, robustness and reliability. Because of the so...

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Main Authors: LI,SHIH-LIN, 李士林
Other Authors: Gaing,Zwe-Lee
Format: Others
Language:zh-TW
Published: 2017
Online Access:http://ndltd.ncl.edu.tw/handle/27hdqz
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spelling ndltd-TW-105KYIT04420042019-05-16T00:15:36Z http://ndltd.ncl.edu.tw/handle/27hdqz Optimal Design a Flux-Switching PM Motor with Soft Composite Material Core for Applying to High-Speed Spindle Motor 應用於高速主軸之切換磁通式永磁馬達最佳化設計-使用SMC複合材料 LI,SHIH-LIN 李士林 碩士 高苑科技大學 電機工程研究所 105 Spindle motor is one of the importance core parts in many industrial machines. The performance requirements of a spindle motor are sufficient torque at high-speed operation, high power density, more wide speed range, robustness and reliability. Because of the soft composite material has fewer eddy current loss during high-frequency operation, the flux-switching permanent-magnet motor (FSPM) with the iron core of soft composite material (SMC) has the potential to become the high-speed spindle motor. Hence, the novel geometrical structure of the proposed FSPM motor with C-type SMC core (SMC-based FSPM) has been proposed in this paper. The results show the proposed SMC-based FSPM motor has potentials as a high-speed spindle motor in high-effectiveness and robustness. Gaing,Zwe-Lee 江瑞利 2017 學位論文 ; thesis 87 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 高苑科技大學 === 電機工程研究所 === 105 === Spindle motor is one of the importance core parts in many industrial machines. The performance requirements of a spindle motor are sufficient torque at high-speed operation, high power density, more wide speed range, robustness and reliability. Because of the soft composite material has fewer eddy current loss during high-frequency operation, the flux-switching permanent-magnet motor (FSPM) with the iron core of soft composite material (SMC) has the potential to become the high-speed spindle motor. Hence, the novel geometrical structure of the proposed FSPM motor with C-type SMC core (SMC-based FSPM) has been proposed in this paper. The results show the proposed SMC-based FSPM motor has potentials as a high-speed spindle motor in high-effectiveness and robustness.
author2 Gaing,Zwe-Lee
author_facet Gaing,Zwe-Lee
LI,SHIH-LIN
李士林
author LI,SHIH-LIN
李士林
spellingShingle LI,SHIH-LIN
李士林
Optimal Design a Flux-Switching PM Motor with Soft Composite Material Core for Applying to High-Speed Spindle Motor
author_sort LI,SHIH-LIN
title Optimal Design a Flux-Switching PM Motor with Soft Composite Material Core for Applying to High-Speed Spindle Motor
title_short Optimal Design a Flux-Switching PM Motor with Soft Composite Material Core for Applying to High-Speed Spindle Motor
title_full Optimal Design a Flux-Switching PM Motor with Soft Composite Material Core for Applying to High-Speed Spindle Motor
title_fullStr Optimal Design a Flux-Switching PM Motor with Soft Composite Material Core for Applying to High-Speed Spindle Motor
title_full_unstemmed Optimal Design a Flux-Switching PM Motor with Soft Composite Material Core for Applying to High-Speed Spindle Motor
title_sort optimal design a flux-switching pm motor with soft composite material core for applying to high-speed spindle motor
publishDate 2017
url http://ndltd.ncl.edu.tw/handle/27hdqz
work_keys_str_mv AT lishihlin optimaldesignafluxswitchingpmmotorwithsoftcompositematerialcoreforapplyingtohighspeedspindlemotor
AT lǐshìlín optimaldesignafluxswitchingpmmotorwithsoftcompositematerialcoreforapplyingtohighspeedspindlemotor
AT lishihlin yīngyòngyúgāosùzhǔzhóuzhīqièhuàncítōngshìyǒngcímǎdázuìjiāhuàshèjìshǐyòngsmcfùhécáiliào
AT lǐshìlín yīngyòngyúgāosùzhǔzhóuzhīqièhuàncítōngshìyǒngcímǎdázuìjiāhuàshèjìshǐyòngsmcfùhécáiliào
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