嵌入式时栅角位移传感器短周期误差分析与补偿
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TH712

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重庆市科委基础科学与前沿技术研究项目(cstc2017jcyjAX0053)、城市轨道交通车辆系统集成与控制重庆市重点实验室开放课题基金(CKLURTSICRFKT201806)、中国博士后科学基金面上项目(2018M633626XB)、重庆市博士后研究人员科研项目(Xm2017191)资助


Short period error analysis and compensation of embedded time grating angular displacement sensor
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    摘要:

    为提高嵌入式时栅角位移传感器测量精度,从传感信号形成机理出发,对短周期误差成因进行了详细分析。通过对绕组等效分析和激励信号分析,确定了短周期误差的主要特性为一次和二次误差,一次误差来源为零点残余误差和直流分量误差,二次误差来源为激励信号正交误差。针对短周期误差补偿,提出了基于超限学习机的误差补偿方法,通过对测量值与真实值样本的训练得到模型最优参数,根据模型参数建立短周期误差模型,利用所得误差模型实现对短周期误差的补偿。实验结果表明,短周期误差分析结果与传感器实际误差特性一致,采用该补偿方法传感器短周期误差大幅度降低,降低了约96%。对比和重复性实验表明,该方法与谐波补偿法相比精度提高了约1倍,误差补偿效果更优,同时方法具有良好的测量稳定性,对提高嵌入式时栅角位移传感器的测量精度具有重要的理论和现实意义。

    Abstract:

    In order to improve the measurement accuracy of the embedded time grating angular displacement sensor, starting from the formation mechanism of the sensing signal, the cause of the short period error is analyzed in detail. Through the winding equivalent analysis and excitation signal analysis, it is determined that the main characteristics of the short period error are the first order error and quadric error. The source of the first order error is the zero residual error and direct current component error, and the source of the quadric error is the excitation signal quadrature error. Aiming at the compensation of the short period error, an error compensation method based on extreme learning machine is proposed. The model optimal parameters are obtained through training the measured values and real sample values. According to the model parameters, the short period error model is established, which is used to realize the short period error compensation. The experiment result shows that the analysis result of short period error is consistent with the actual characteristic of the sensor error, and using the proposed error compensation method the short period error of the sensor is reduced by about 96%, which is a greatly reduction. The comparison and repetitive experiments show that the accuracy of the proposed method is improved doubly compared with that of the harmonic compensation method, the error compensation effect is superior. Besides, the proposed method possesses good measurement stability, which has important theoretical and practical significance for improving the measurement accuracy of the embedded time grating angular displacement sensor.

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孙世政,周清松,何泽银.嵌入式时栅角位移传感器短周期误差分析与补偿[J].仪器仪表学报,2019,40(4):27-34

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  • 在线发布日期: 2022-01-17
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