Research Progress on the Application of High-speed Brushless DC Motor in Magnetically Suspended Inertial Actuator

Research Progress on the Application of High-speed Brushless DC Motor in Magnetically Suspended Inertial Actuator

There are various applications of permanent magnet brushless DC motor (BDCM). They offer a number of attractive features and could meet the requirements coming from new generation satellites such as high attitude precision, high maneuver capacity and high stability. Therefore, high speed magneticall...

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Main Authors: Liu Gang, Fang Jiancheng, Liu Jianzhang
Format: Article
Language:English
Published: SAGE Publishing 2008-04-01
Series:Measurement + Control
Online Access:https://doi.org/10.1177/002029400804100305
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spelling doaj-3956976f93424c0eabed8659e6e8f1002020-11-25T02:59:00ZengSAGE PublishingMeasurement + Control0020-29402008-04-014110.1177/002029400804100305Research Progress on the Application of High-speed Brushless DC Motor in Magnetically Suspended Inertial ActuatorLiu GangFang JianchengLiu JianzhangThere are various applications of permanent magnet brushless DC motor (BDCM). They offer a number of attractive features and could meet the requirements coming from new generation satellites such as high attitude precision, high maneuver capacity and high stability. Therefore, high speed magnetically suspended inertia devices using BDCM is becoming the best choice for inertia actuators. In this paper, design principles including hollow cup BDCM electromagnetic design method and optimized structural design methods are reviewed. Also, the control methods of high speed BDCM used for magnetically suspended flywheel (MSFW) including PLL method, double mode control method and current restraint method are reviewed. The worldwide applications of high speed BDCM in magnetically suspended inertia actuators are considered.https://doi.org/10.1177/002029400804100305
collection DOAJ
language English
format Article
sources DOAJ
author Liu Gang
Fang Jiancheng
Liu Jianzhang
spellingShingle Liu Gang
Fang Jiancheng
Liu Jianzhang
Research Progress on the Application of High-speed Brushless DC Motor in Magnetically Suspended Inertial Actuator
Measurement + Control
author_facet Liu Gang
Fang Jiancheng
Liu Jianzhang
author_sort Liu Gang
title Research Progress on the Application of High-speed Brushless DC Motor in Magnetically Suspended Inertial Actuator
title_short Research Progress on the Application of High-speed Brushless DC Motor in Magnetically Suspended Inertial Actuator
title_full Research Progress on the Application of High-speed Brushless DC Motor in Magnetically Suspended Inertial Actuator
title_fullStr Research Progress on the Application of High-speed Brushless DC Motor in Magnetically Suspended Inertial Actuator
title_full_unstemmed Research Progress on the Application of High-speed Brushless DC Motor in Magnetically Suspended Inertial Actuator
title_sort research progress on the application of high-speed brushless dc motor in magnetically suspended inertial actuator
publisher SAGE Publishing
series Measurement + Control
issn 0020-2940
publishDate 2008-04-01
description There are various applications of permanent magnet brushless DC motor (BDCM). They offer a number of attractive features and could meet the requirements coming from new generation satellites such as high attitude precision, high maneuver capacity and high stability. Therefore, high speed magnetically suspended inertia devices using BDCM is becoming the best choice for inertia actuators. In this paper, design principles including hollow cup BDCM electromagnetic design method and optimized structural design methods are reviewed. Also, the control methods of high speed BDCM used for magnetically suspended flywheel (MSFW) including PLL method, double mode control method and current restraint method are reviewed. The worldwide applications of high speed BDCM in magnetically suspended inertia actuators are considered.
url https://doi.org/10.1177/002029400804100305
work_keys_str_mv AT liugang researchprogressontheapplicationofhighspeedbrushlessdcmotorinmagneticallysuspendedinertialactuator
AT fangjiancheng researchprogressontheapplicationofhighspeedbrushlessdcmotorinmagneticallysuspendedinertialactuator
AT liujianzhang researchprogressontheapplicationofhighspeedbrushlessdcmotorinmagneticallysuspendedinertialactuator
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