An Overview of Drive Control Technology of Ultra-High-Speed Permanent Magnet Motors for Vehicles

被引:0
|
作者
Lin C. [1 ]
Xu Y. [1 ]
Xing J. [1 ]
Zhuang X. [2 ]
Jiang X. [1 ]
机构
[1] Beijing Institute of Technology, National Engineering Laboratory for Electric Vehicles, Beijing
[2] BIT Huachuang Electric Vehicle Technology Co., Ltd., Beijing
来源
Qiche Gongcheng/Automotive Engineering | 2022年 / 44卷 / 07期
关键词
circuit topology; position-sensor-less control; ultra-high-speed permanent magnet motor; voltage modulation strategy;
D O I
10.19562/j.chinasae.qcgc.2022.07.011
中图分类号
学科分类号
摘要
Ultra-high-speed permanent magnet motor (UhsPM) has the advantages of small size, high efficiency and high power density, and is widely used in automotive application fields such as fuel cell air compressors and electrically assisted turbochargers. The features of small inductance and high fundamental frequency make its drive control more difficult than that of normal-speed permanent magnet motor. In this paper, the research status quo of automotive UhsPM drive control technology in terms of circuit topology, voltage modulation strategy matching and position-sensor-less control is elaborated, the research highlights of various technologies are summarized, and the evaluations by advantage and disadvantage comparison are given. Finally, the future development trends are forecasted. © 2022 SAE-China. All rights reserved.
引用
收藏
页码:1049 / 1058
页数:9
相关论文
共 60 条
  • [31] ZWYSSIG C, ROUND S D, KOLAR J W., An ultra-high-speed, low power electrical drive system, IEEE Transactions on Industrial Electronics, 55, 2, pp. 577-585, (2008)
  • [32] (2019)
  • [33] YUAN Dengke, Frequency conversion speed regulation system and control of permanent magnet synchronous motor, (2015)
  • [34] KIM J, JEONG I, NAM K, Et al., Sensorless control of PMSM in a high-speed region considering iron loss[J], IEEE Transactions on Industrial Electronics, 62, 10, pp. 6151-6159, (2015)
  • [35] LI L, TAN G, LIU J, Et al., An optimal pulse width modulation method for high-speed permanent magnet synchronous motor [C], 2013 IEEE 3rd International Conference on Information Science and Technology, pp. 237-244, (2013)
  • [36] CUI C, LIU G, WANG K, Et al., Sensorless drive for high-speed brushless DC motor based on the virtual neutral voltage[J], IEEE Transactions on Power Electronics, 30, 6, pp. 3275-3285, (2015)
  • [37] SONG X, FANG J, HAN B, Et al., Adaptive compensation method for high-speed surface PMSM sensorless drives of EMF-based position estimation error[J], IEEE Transactions on Power Electronics, 31, 2, pp. 1438-1449, (2016)
  • [38] SONG X, HAN B, ZHENG S, Et al., High-precision sensorless drive for high-speed BLDC motors based on the virtual third harmonic back-EMF[J], IEEE Transactions on Power Electronics, 32, 2, pp. 1528-1540, (2018)
  • [39] SONG X, HAN B, WANG K., Sensorless drive of high-speed BLDC motors based on virtual 3rd-harmonic back-EMF and high-precision compensation [J], IEEE Transactions on Power Electronics, 34, 9, pp. 8787-8796, (2019)
  • [40] HUNG C-W., An ultra-high-speed motor driver with hybrid modulations, Artificial Life and Robotics, 18, 1-2, pp. 70-75, (2013)
123456