Analysis and Compensation of Cross-Axis Sensitivity in Low-Cost MEMS Inertial Sensors

2021 IEEE International Symposium on Inertial Sensors and Systems (INERTIAL) Pub Date : 2021-03-22 DOI:10.1109/INERTIAL51137.2021.9430454

T. Hiller, Lukas Blocher, Miloš Vujadinović, Zsigmond Péntek, A. Buhmann, H. Roth

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引用次数: 3

Abstract

This paper is concerned with cross-axis sensitivity in low-cost MEMS triaxial accelerometers and gyroscopes. A highly-accurate rate table is used to perform simple six-point measurements on forty devices. The gathered cross-axis sensitivity matrices are subdivided into scale-factor, non-orthogonality and misalignment. Additionally, accel-to-gyro triad alignment is examined. By applying the inverted cross-axis sensitivity matrix to the sensor output and remeasuring all devices, nonorthogonality and accel-to-gyro triad alignment can be compensated to below 0.2 %. Analytical formulas allow the calculation of the achievable precision as a function of sensor noise, magnitude of stimulus and measurement time. Root-causes of non-orthogonality are discussed and a mechanism is proposed, where quadrature motion of one axis induces Coriolis force onto another axis. Lastly, good stability of the accel-to-gyro triad alignment across temperature is demonstrated, indicating that a once-measured compensation is valid across environmental changes and for an extended time.

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低成本MEMS惯性传感器跨轴灵敏度分析与补偿

本文研究了低成本MEMS三轴加速度计和陀螺仪的跨轴灵敏度问题。高精度的速率表用于在40个设备上执行简单的六点测量。将采集到的跨轴灵敏度矩阵细分为尺度因子矩阵、非正交矩阵和错位矩阵。此外，还研究了加速度-陀螺三位一体对准。通过对传感器输出应用倒交叉轴灵敏度矩阵并重新测量所有器件，非正交性和加速度-陀螺三联准直可以补偿到0.2%以下。分析公式允许计算可实现的精度作为传感器噪声，刺激大小和测量时间的函数。讨论了非正交性的根本原因，并提出了一种机制，其中一个轴的正交运动引起另一个轴上的科里奥利力。最后，证明了加速度-陀螺三联对准在温度上的良好稳定性，表明一次测量补偿在环境变化和较长时间内是有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 IEEE International Symposium on Inertial Sensors and Systems (INERTIAL)

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