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永磁型无轴承电机控制系统研究 被引量:6

Investigation on the Control System of Permanent-Magnet Type Bearingless Motor
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摘要 永磁型无轴承电机(Permanent Magnet Type Bearingless Motor,简称PMTBM)是一种集旋转与悬浮于一体的磁悬浮永磁同步电机(Permanent Magnet Synchronous Motor,简称PMSM)。为了实现其悬浮控制,设计和实现了基于LF2407A的矢量控制系统;阐述了系统的工作原理及其硬件组成和软件系统。通过对整个PMTBM控制系统的实验调试,实现了转子良好的动、静态悬浮运行,验证了设计方法的可行性。 The permanent-magnet type bearingless motor is a new type of magnetic suspension motor combining the driving and self-suspension.Aimed at the motor suspension control,an experimental platform of vector control system was designed based on DSP TMS320LF2407A.And the operation principle and the scheme of the software and hardware were also introduced.The experiment results show the control system can achieve the excellent static and dynamic suspension operation performance,which validate the reliability of the proposed design method.
作者 年珩 贺益康
机构地区 浙江大学
出处 《电力电子技术》 CSCD 北大核心 2007年第2期85-87,共3页 Power Electronics
基金 国家自然科学基金资助项目(50477310)~~
关键词 永磁电机 磁悬浮 矢量控制 permanent magnet motor magnetic suspension vector control
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参考文献5

  • 1A Chiba.An Analysis of Bearingless AC Motors [J].IEEE Trans. on Energy Conversion, 1994,9( 1 ):61-67.
  • 2M Oshima,S Miyazawa,T Deido,et al.Characteristics of a Permanent Magnet Type Bearingless Motor[J].IEEE Trans. on Industrial Application, 1996,32(2):363-370.
  • 3仇志坚,邓智泉,严仰光.无轴承永磁同步电动机的原理及实现[J].电工技术学报,2004,19(11):8-13. 被引量:63
  • 4M Oshima, K Yamaida, A Chiba. An Improved Control Method of Buried-type IPM Bearingless Motors Considering Magnetic Saturation and Magnetic Pull Variation [J]. IEEE Trans. on Energy Conversion,2004, 19 (3): 569-575.
  • 5M Oshima, A Chiba, T Fukao,et al.Design and Analysis of Permanent Magnet-type Bearingless Motors [J]. IEEE Trans. on Industrial Electronics, 1996,43 (2) :292-299.

二级参考文献9

  • 1[3]Chiba A, Deido T, Fukao T,Rahman M A. An analysis of bearingless AC motors. IEEE Trans. Energy Conversion,1994,9(1):61~68
  • 2[4]Schob R Bichsel J. Vector control of the bearingless motor. Proc.4th Int. Symp. Magnetic Bearings, Zürich, Switzerland,1994:327~332
  • 3[5]Bichsel J. The bearingless electrical machine. Proc. Int. Symp. Magn. Suspension. Technol. NASA Langley Res. Center, Hampton,1991:561~573
  • 4[6]Oshima M, Miyazawa S, Deido T, et al. Characteristics of a permanent magnet type bearingles motor. IEEE Trans. Industry Application, 1996, 32(2):363~370
  • 5[7]Noriaki Fujie,Rintarou Yoshimatsu,Akira Chiba, et al. A decoupling control method of buried permanent magnet bearingless motors considering magnetic saturation. IPEC-Tokyo, 2000, S-10-6:395~400
  • 6[8]Masahide Ooshima,Satoru Miyazawa,Yusuke Shima, et al. Increase in radial force of a bearingless motor with buried permanent magnet-type rotor. Proc. of the Fourth International conference on MOVIC,1998, 3:1077~1082
  • 7[9]Kohei Inagaki, Akira Chiba,M Rahman R, Tadashi Fukao. Performance characteristics of inset-type permanent magnet bearingless motor drives. PESWM, Singapore 2000
  • 8[10]Masahide Ooshima,Satoru Miyazawa,Akira Chiba,et al. Performance evaluation and test results of a 11000r/min,4kW surface-mounted permanent magnet-type bearingless motor. ISMB, ETH Zurich 2000: 377~382
  • 9邓智泉,严仰光.无轴承交流电动机的基本理论和研究现状[J].电工技术学报,2000,15(2):29-35. 被引量:53

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