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基于STM32F407VE的磁浮轴承控制器的设计(英文) 被引量:1

Design of maglev bearing controller based on STM32F407VE
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摘要 为了对传统磁浮轴承控制器的不足之处进行改进,设计了一种基于ARM的磁浮轴承控制器。该控制器能够控制5个维度使转子悬浮,同时能够及时调整10组电流驱动器。该控制器选用32位ARM STM32F407VE作为核心处理芯片,具有可靠性高,速度快的优点,精度能够达到0. 02 mm,运行稳定可靠。 In order to make some improvement to overcome the shortcomings of the traditional maglev bearing controller,a maglev bearing controller based on ARM STM32F407VE is designed in this paper.It can control 5 dimensions to make the rotor suspend and adjust 10 groups of current drivers in time.The controller selects the 32 bit ARM STM32F407VE as the core processing chip which has the advantages of high reliability and fast speed.The system can achieve the accuracy of 0.02 mm through experimental operation,which is operation is reliable and stable.Therefore,the high precision maglev bearing controller designed in this paper has a good application prospect.
作者 赵谢秋 孙永恒 孟祥 赵航 Xie-qiu ZHAO;Yong-heng SUN;Xiang MENG;Hang ZHAO(College of Computer Science and Technology,Beihua University Jilin 132021,China;Electrical & Information Engineering College,Beihua University,Jilin 132021.China;The No.2 Middle School of Jiutai City Jiulai 130500,China)
机构地区 北华大学计算机科学与技术学院 北华大学电气与信息工程学院 吉林省九台市第二中学
出处 《机床与液压》 北大核心 2019年第6期17-21,共5页 Machine Tool & Hydraulics
基金 The National Natural Science Foundation of China(61300098) National innovation and entrepreneurship program for college students(201810201018)~~
关键词 磁浮轴承 控制器 控制器设计 Maglev bearing Controller Design of controller
分类号 TH133 [机械工程—机械制造及自动化]
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  • 1王军,徐龙祥.无传感器磁轴承转子位置检测与研究[J].机械工程与自动化,2005(1):71-73. 被引量:8
  • 2Schweitzer G. Safety and reliability aspects for active magnetic bearing applications-a survey[ J] . Proc. IMechE Part I: J. Systems and Control Engineering, 2005,219( 1 ) :383 - 391.
  • 3Cole M O T, Keogh P S, Sahinkaya M N, etal. Towards fault-tolerant control of rotor-magnetic bearing systems [ J ]. IFAC J. Control Engineering Practice, 2004,12 (4) :491 - 501.
  • 4Alexandre S, Raoul H, Philipp B, et al. New results for self-sensing aetive magnetic bearings using modulation approach [ J ]. IEEE Trans. On Control Systems Technology, 2005,13 (4):500-516.
  • 5Sivadasan K K. Analysis of self-sensing active magnetic bearings working on inductance measurement principle[ J]. IEEE Trans. on Magnetics, 1996,32(2) :329 -334.
  • 6Peterson K S, Middleton R H, Freudenberg J S. Fundamental limitations in self-sensing magnetic bearings when modeled as linear periodic systems [ A ]. Proceedings of the 2006 American Control Conference[ C], Minnesota, USA IEEE, 2006:14 - 16.
  • 7Dominick T M, Eric H M. Experimental self-sensing results for a magnetic bearing[ A]. Proceeding of International Gas Turbine & Aeroengine Congress & Exhibition[ C], New Orleans, LA: ASME ,2001 : 1 - 5.
  • 8刘雪冬,刘泉,胡业发.磁悬浮轴承转子位置无传感器自动检测的研究[J].武汉理工大学学报,2003,25(1):62-64. 被引量:2

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机床与液压
2019年 第6期

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