一次性扫频消除MEMS振动陀螺仪中的IQ耦合

2016 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO) Pub Date : 2016-07-18 DOI:10.1109/3M-NANO.2016.7824917

Wei Ma, Siqi Liu, Yiyu Lin, Yidong Liu, Zhong-he Jin

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引用次数: 3

摘要

本文探讨了信号处理电路产生的相位延迟对MEMS振动陀螺仪IQ耦合特性的影响。在传统方法中，相位延迟表现为驱动模式振荡控制锁相环中的相位误差。通过详细的理论分析，导出了相位误差的IQ耦合解析方程。然后，提出了一种一次性扫频(OTFS)程序，作为现场网络分析仪，通过自动修改锁相环控制的参考值来补偿相位误差。此外，使用基于现场可编程门阵列(FPGA)的振动微机械陀螺仪数字平台对OTFS方法进行了测试。实验结果表明，OTFS方法有效地消除了不必要的IQ耦合，所测陀螺仪在大气中的偏置不稳定性为0.75°hr，角度随机漫步(ARW)为0.06°/hr。

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One-time frequency sweep to eliminate IQ coupling in MEMS vibratory gyroscopes

This paper explores the influence of the phase delay resulting from the signal processing circuitry on the IQ coupling characteristics in MEMS vibratory gyroscopes. In the conventional method, the phase delay appears as a phase error in the phase-locked loop (PLL) of the drive-mode oscillation control. A detailed theoretical analysis derives an analytical equation of the IQ coupling about the phase error. Then, a one-time frequency sweep (OTFS) procedure, which acts as an in-situation network analyzer, is proposed to compensate for the phase error by automatically modifying the reference value of the PLL control. Further, the OTFS method is tested using a field-programmable gate array (FPGA) based digital platform on a vibratory micro-machined gyroscope. Experimental results demonstrate that the OTFS method effectively eliminates the unwanted IQ coupling, and the tested gyroscope exhibits a bias instability of 0.75 °hr and an angle random walk (ARW) of 0.06 °/hr at atmosphere.

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来源期刊

2016 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO)

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