基于初速识别HFI的永磁牵引电机带速启动研究

伊建辉; 矫利业; 田久东; 王鹏; 李梁京

doi:10.13890/j.issn.1000-128X.2024.02.003

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基于初速识别HFI的永磁牵引电机带速启动研究

变流与控制 | 更新时间：2024-08-02

- 基于初速识别HFI的永磁牵引电机带速启动研究
- A study on starting of permanent magnet traction motor in rotating state based on HFI for initial speed recognition
- 机车电传动 2024年第2期页码：25-32
- 作者机构：
  
  中车工业研究院（青岛）有限公司，山东青岛 266109
- 作者简介：
  
  伊建辉，男，硕士，高级工程师，主要从事轨道交通装备及其控制方面的研究；E-mail: yijianhui@foxmail.com
- 基金信息：
  
  国家重点研发计划资助项目(2021YFB3803001)
- DOI：10.13890/j.issn.1000-128X.2024.02.003
  中图分类号： U264.1;TM351
- 纸质出版日期：2024-03-10，
  
  收稿日期：2023-11-08，
  
  修回日期：2024-03-01，
- 稿件说明：
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伊建辉, 矫利业, 田久东, 等. 基于初速识别HFI的永磁牵引电机带速启动研究[J]. 机车电传动, 2024(2): 25-32.

YI Jianhui, JIAO Liye, TIAN Jiudong, et al. A study on starting of permanent magnet traction motor in rotating state based on HFI for initial speed recognition[J]. Electric drive for locomotives,2024(2): 25-32.
伊建辉, 矫利业, 田久东, 等. 基于初速识别HFI的永磁牵引电机带速启动研究[J]. 机车电传动, 2024(2): 25-32. DOI：10.13890/j.issn.1000-128X.2024.02.003.

YI Jianhui, JIAO Liye, TIAN Jiudong, et al. A study on starting of permanent magnet traction motor in rotating state based on HFI for initial speed recognition[J]. Electric drive for locomotives,2024(2): 25-32. DOI：10.13890/j.issn.1000-128X.2024.02.003.

摘要

为解决永磁牵引电机带速启动问题，文章提出了一种基于初速识别高频注入的带速启动技术，研究了脉振正弦波高频注入的技术原理及数学模型，对传统高频注入进行了改进使其适用于带速启动，并进行了仿真计算，同时给出了基于初速识别高频注入的永磁同步电机带速启动策略，设计试验对脉振正弦波高频注入技术以及带速启动策略进行了测试验证。研究得出脉振正弦波高频注入技术可以较高的精度跟踪转子实际位置和转速；基于高频注入的带速启动技术可以准确识别电机启动时的转速，并有效解决不同工况下的电机启动问题；试验验证了初速识别高频注入技术以及带速启动策略。

Abstract

To solve the starting problem of permanent magnet traction motors in rotating state

this paper proposes a starting technology based on high-frequency injection (HFI) for initial speed recognition in rotating state. The technical principle and mathematical model of high-frequency injection of pulsating sine wave were studied

and the traditional high-frequency injection was improved to make it suitable for starting in rotating state

simulation calculation was carried out. Besides

a starting strategy for permanent magnet synchronous motor in rotating state was proposed based on high-frequency injection for initial speed recognition

and tests were designed to test and verify the pulsating sine wave high-frequency injection technology and the starting strategy in rotating state. Through research

it concluded that the pulsating sine wave high-frequency injection technology can track the actual position and speed of the rotor with high accuracy; the starting technology based on high-frequency injection in rotating state can accurately identify the speed of the motor when it starts up and effectively solve the motor starting problems under different working conditions. The test verifies the high-frequency injection technology for initial speed recognition and the starting strategy in rotating state.

关键词

永磁同步电机高频注入带速启动饱和凸极极性辨识

Keywords

permanent magnet synchronous motorhigh-frequency injectionstarting in rotating statesaturated salient polepolarity identification

references

熊成林, 冯晓云, 宋文胜. 牵引电动机无速度传感器带速重投解决方案[J]. 西南交通大学学报, 2012, 47(5): 820-825.

XIONG Chenglin, FENG Xiaoyun, SONG Wensheng. Solution for speed sensorless control system restarting at unknown speed of traction motor[J]. Journal of southwest jiaotong university, 2012, 47(5): 820-825.

丁荣军, 桂卫华, 尚敬. 感应电机无速度传感器控制带速重投研究[J]. 机车电传动, 2008(3): 12-14.

DING Rongjun, GUI Weihua, SHANG Jing. Study on restarting at unknown speed with speed-sensorless control of induction motor[J]. Electric drive for locomotives, 2008(3): 12-14.

杨北辉, 钟立群, 朱龙胜. 轨道交通异步牵引电机无速度传感器矢量控制技术分析[J]. 现代城市轨道交通, 2019(9): 29-35.

YANG Beihui, ZHONG Liqun, ZHU Longsheng. Analysis of speed sensorless vector control technology for asynchronous traction motor in rail transit[J]. Modern urban transit, 2019(9): 29-35.

赵赫, 黄科元, 周佳新, 等. 适用于高速永磁同步电机的带速重投策略[J]. 电力电子技术, 2021, 55(6): 19-21.

ZHAO He, HUANG Keyuan, ZHOU Jiaxin, et al. The speed sensorless restart strategy of high-speed PMSM[J]. Power electronics, 2021, 55(6): 19-21.

耿运全, 何致远, 王子辉, 等. 基于电流谐振跟踪的热泵永磁风机无位置传感器带速启动研究[J]. 汽车技术, 2023(4): 36-43.

GENG Yunquan, HE Zhiyuan, WANG Zihui, et al. Research on sensorless coasting startup strategy of permanent magnet fan for heat pump based on current resonant tracking[J]. Automobile technology, 2023(4): 36-43.

SEO D W, BAK Y, LEE K B. An improved rotating restart method for a sensorless permanent magnet synchronous motor drive system using repetitive zero voltage vectors[J]. IEEE transactions on industrial electronics, 2020, 67(5): 3496-3504.

高雅, 刘卫国, 骆光照. 大惯量负载永磁同步电机断电-寻优重投控制系统[J]. 电工技术学报, 2014, 29(5): 62-69.

GAO Ya, LIU Weiguo, LUO Guangzhao. A large inertia load PMSM power down-rejoining on optimizing control system[J]. Transactions of China electrotechnical society, 2014, 29(5): 62-69.

YANG S C, LORENZ R D. Surface permanent magnet synchronous machine position estimation at low speed using eddy-current-reflected asymmetric resistance[J]. IEEE transactions on power electronics, 2012, 27(5): 2595-2604.

HORIE T, KONDO K. Experimental study on a restarting procedure at coasting condition for a rotation angle sensorless PMSM[J]. IEEJ journal of industry applications, 2014, 3(2): 131-137.

YAMAKAWA T, WAKAO S, KONDO K, et al. Starting procedure of rotation sensorless PMSM at coasting condition for railway vehicle traction[J]. Electrical engineering in Japan, 2009, 169(2): 56-63.

吕德刚, 姜国威, 纪堂龙. 永磁同步电机低速域改进高频脉振注入控制[J]. 哈尔滨理工大学学报, 2022, 27(6): 32-40.

LYU Degang, JIANG Guowei, JI Tanglong. Improved high frequency pulse injection control in low speed domain of permanent magnet synchronous motor[J]. Journal of Harbin university of science and technology, 2022, 27(6): 32-40.

SERGEANT P, DE BELIE F, MELKEBEEK J. Rotor geometry design of interior PMSMs with and without flux barriers for more accurate sensorless control[J]. IEEE transactions on industrial electronics, 2012, 59(6): 2457-2465.

李浩源, 张兴, 杨淑英, 等. 基于高频信号注入的永磁同步电机无传感器控制技术综述[J]. 电工技术学报, 2018, 33(12): 2651-2664.

LI Haoyuan, ZHANG Xing, YANG Shuying, et al. Review on sensorless control of permanent magnet synchronous motor based on high-frequency signal injection[J]. Transactions of China electrotechnical society, 2018, 33(12): 2651-2664.

章回炫, 范涛, 国敬, 等. 永磁同步电机位置信号误差的影响分析及消除[J]. 中国电机工程学报, 2020, 40(增刊1): 294-302.

ZHANG Huixuan, FAN Tao, GUO Jing, et al. Analysis and elimination of position signal error of permanent magnet synchronous motor[J]. Proceedings of the CSEE, 2020, 40(Suppl 1): 294-302.

BIERHOFF M H. A general PLL-type algorithm for speed sensorless control of electrical drives[J]. IEEE transactions on industrial electronics, 2017, 64(12): 9253-9260.

宋金星, 张倩, 叶超, 等. 基于高频方波注入的永磁同步电机转矩脉动抑制策略[J]. 科学技术与工程, 2023, 23(18): 7779-7786.

SONG Jinxing, ZHANG Qian, YE Chao, et al. Torque ripple suppression strategy for permanent magnet synchronous motor based on high frequency square wave injection[J]. Science technology and engineering, 2023, 23(18): 7779-7786.

刘伟, 刘浩民. 改进的脉振高频注入永磁同步电动机无传感器控制[J]. 电气技术, 2023, 24(6): 6-12.

LIU Wei, LIU Haomin. Improved sensorless control for pulsating high frequency signal injection of permanent magnet synchronous motor[J]. Electrical engineering, 2023, 24(6): 6-12.

杨红, 杨勇, 李生明. 基于高频信号注入的同步电机无传感器控制[J]. 组合机床与自动化加工技术, 2023(4): 76-81.

YANG Hong, YANG Yong, LI Shengming. Sensorless control of synchronous motor based on high frequency signal injection[J]. Modular machine tool & automatic manufacturing technique, 2023(4): 76-81.

于安博, 刘利, 阚志忠, 等. 高频脉振信号注入永磁同步电机无滤波器初始位置辨识方法[J]. 电工技术学报, 2021, 36(4): 801-809.

YU Anbo, LIU Li, KAN Zhizhong, et al. Initial position identification of PMSM with filterless high frequency pulse signal injection method[J]. Transactions of China electrotechnical society, 2021, 36(4): 801-809.

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