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首页> 外文期刊>Industry Applications, IEEE Transactions on >Improving Position Sensor Accuracy Through Spatial Harmonic Decoupling, and Sensor Scaling, Offset, and Orthogonality Correction Using Self-Commissioning MRAS Methods
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Improving Position Sensor Accuracy Through Spatial Harmonic Decoupling, and Sensor Scaling, Offset, and Orthogonality Correction Using Self-Commissioning MRAS Methods

机译:通过空间谐波去耦以及使用自调试MRAS方法进行传感器缩放,偏移和正交校正来提高位置传感器的精度

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摘要

This paper presents methods for improving the accuracy of vector-based position measurements through the decoupling of multiple nonideal sensor properties using model reference adaptive system (MRAS) techniques. The nonideal sensor properties considered are: signal scaling errors (amplitude imbalance on the vector components), signal offsets, imperfect orthogonality (quadrature error) between sensor vector components, and additional spatial harmonics superimposed on fundamental sensor outputs. Simulation and experimental results are provided to evaluate the proposed MRAS-based decoupling methods. The methods presented here can be applied to multiple forms of vector-based position measurement and estimation such as the use of magnetoresistive sensors, sine/cosine encoders, resolvers, or self-sensing (sensorless) methods. These methods can be implemented in real time and are well-suited to the self-commissioning of vector-based position sensors for enhanced sensor accuracy.
机译:本文介绍了通过使用模型参考自适应系统(MRAS)技术对多个非理想传感器属性进行解耦来提高基于矢量的位置测量精度的方法。考虑的非理想传感器特性是:信号缩放比例误差(矢量分量上的幅度不平衡),信号偏移,传感器矢量分量之间不完美的正交性(正交误差)以及叠加在基本传感器输出上的其他空间谐波。仿真和实验结果可用来评估所提出的基于MRAS的去耦方法。此处介绍的方法可应用于多种形式的基于矢量的位置测量和估计,例如磁阻传感器,正弦/余弦编码器,旋转变压器或自感应(无传感器)方法的使用。这些方法可以实时实现,并且非常适合基于矢量的位置传感器的自调试,从而提高了传感器的准确性。

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