异步电机参数离线辨识改进算法

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摘要为实现变频调速系统的自运行(self-commissioning), 提出了一种异步电机参数离线辨识的改进算法, 该算法能直接辨识出与无速度传感器定子磁场定向矢量控制相关的大部分电机参数。利用直流实验辨识定子电阻, 并通过分析逆变器的开关状态, 得到直流实验的等效控制电路。采用单相交流堵转实验辨识定子总漏感和转子电阻, 并通过分析异步电机相量图得到单相交流堵转实验稳定运行的工作条件。恒压频比空载实验辨识定子自感, 对电机定子频率进行补偿以消除可能出现的定子电流振荡。利用直流侧电压和PWM占空比来重构定子电压, 并根据电机电流极性补偿逆变器死区引起的电压误差。最后, 在两台不同功率等级的异步电机上进行了参数辨识和无速度传感器定子磁场定向控制的实验研究。实验结果表明, 参数辨识结果对直流侧电压不敏感, 辨识得到的电机参数能满足无速度传感器矢量控制系统对电机参数准确性的要求。

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关键词 ：参数离线辨识, 异步电机, 无速度传感器矢量控制, 定子磁场定向

Abstract：In order to implement self-commissioning of the frequency-variable speed-adjustable system, an improved off-line parameter identification algorithm for induction motors (IMs) is proposed in this paper. Most of motor parameters which directly related to speed sensorless stator-flux-oriented vector control are estimated using the improved algorithm. Stator resistance is estimated by modified DC test. The equivalent control circuit of the DC test is obtained by analyzing switch states of the inverter. Rotor resistance and total leakage inductance are estimated by single-phase locked-rotor test. The stable operating condition of the single-phase test is also deduced by the phasor graph of the induction motor. Stator self-inductance is estimated by constant V/f no-load test. Stator frequency is compensated to eliminate possible oscillation of stator currents in V/f no load test. The stator voltages are constructed by DC voltage and PWM signal’s duty ratios. The voltage errors due to inverter’s dead time are also compensated according to motor current polarity. The experiments of parameter identification and speed sensorless vector control are performed on two induction motors with different rated power. All results indicate that the identification results are insensitive to DC voltage and furthermore the exactness of the estimated parameters can meet the requirements for the speed sensorless vector control.

Key words： Off-line parameter identification induction motor speed sensorless vector control stator-flux-oriented control

收稿日期: 2010-11-02 出版日期: 2014-03-07

PACS:	TM343
	TM921

作者简介: 贺艳晖男, 1980年生, 博士研究生, 主要研究方向为异步电机变频调速、风力发电。王跃男, 1972年生, 博士, 副教授, 主要研究方向为电力传动、电能质量、风力发电、柔性交流输电和电力电子装置。

引用本文:

贺艳晖, 王跃, 王兆安. 异步电机参数离线辨识改进算法[J]. 电工技术学报, 2011, 26(6): 73-82. He Yanhui, Wang Yue, Wang Zhao’an. An Improved Off-Line Parameter Identification Algorithm for Induction Motors. Transactions of China Electrotechnical Society, 2011, 26(6): 73-82.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2011/V26/I6/73

[1] Zeraoulia M, Benbouzid M El H, Diallo D. Electric motor drive selection issues for HEV propulsion systems: a comparative study[J]. IEEE Transactions on Vehicular Technology, 2006, 55(6): 1756-1764.
[2] 李珂, 张承慧, 崔纳新. 电动汽车电驱动系统高速区快响应控制策略[J]. 电工技术学报, 2007, 22(6): 41-47.
[3] Nayeem Hasan S M, Husain I. A Luenberger-sliding mode observer for online parameter estimation and adaptation in high-performance induction motor drives[J]. IEEE Transaction on Industry Applications, 2009, 45 (2): 772-781.
[4] Suman M, Chandan C, Yoichi H, Minh C Ta, Model reference adaptive controller-based rotor resistance and speed estimation techniques for vector controlled induction motor drive utilizing reactive power[J]. IEEE Transactions on Industrial Electronics, 2008, 55(2): 594-601.
[5] 金海, 黄进. 基于模型参考方法的感应电机磁链的自适应观测及参数辨识[J]. 电工技术学报, 2006, 21(1): 65-69.
[6] 余功军, 钟彦儒, 杨耕. 无速度传感器矢量控制系统中的电机参数辨识[J]. 电气传动, 1999, 29(1): 7-10.
[7] Lin Y N, Chen C L. Automatic IM parameter measurement under sensorless field-oriented control[J]. IEEE Transactions on Industry Electronics, 1999, 46(1): 111-118.
[8] 刘洋, 赵金, 王庆义. 间接矢量控制系统中的异步电动机参数辨识[J]. 电工技术学报, 2008, 23(7): 21-26.
[9] 罗慧, 刘军锋, 万淑芸. 感应电机参数的离线辨识[J]. 电气传动, 2006, 36(11): 14-19.
[10] Xu X, Novotny D W. Implementation of direct stator flux orientation control on a versatile DSP based system[J]. IEEE Transactions on Industry Applications, 1991, 27(4): 694-700.
[11] Chen W, Yang R F, Yu Y, et al. A novel stability improvement method for V/F controlled induction motor drive systems[C]. International Conference on Electrical Machines and Systems, 2008: 1073-1076.
[12] 陈硕, 薛昭武. 电压型PWM逆变器输出误差分析及其补偿[J]. 电工技术学报, 2001, 16(2): 51-55.
[13] Ohtani T, Takada N, Tanaka K. Vector control of induction motor without shaft encoder[J]. IEEE Transactions on Industry Applications, 1992, 28(1): 157-164.