两种微机械振动陀螺仪

IEEE Sensors, 2005. Pub Date : 2005-10-31 DOI:10.1109/ICSENS.2005.1597753

A. Shkel, C. Acar, C. Painter

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引用次数: 48

摘要

微机械振动陀螺仪(MVG)可分为两大类，角陀螺仪(或I型)和速率陀螺仪(或II型)。第一类陀螺仪直接测量方向角，而第二类陀螺仪测量旋转速率。到目前为止，大多数MVG实现都是专门用于角速率测量的。本文介绍了一种描述mvg的统一方法，讨论了设计挑战，并介绍了两种类型mvg的设计和实验结果。我们证明，即使具有挑战性，I型设备也可以使用传统的微加工技术实现。这种类型的微机械设备是新的，未开发的，并有可能实现高性能微尺度陀螺仪。低级的II型陀螺仪已经在商业上取得了成功。我们总结了II型宽频带陀螺仪概念的研究结果，并证明了对参数变化的固有鲁棒性可以有效地在结构上实现，将II型MVGs的复杂性从控制电子转移到结构设计上

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Two types of micromachined vibratory gyroscopes

Micromachined vibratory gyroscopes (MVG) can be classified into two broad types, angle gyroscopes (or Type I) and rate gyroscopes (or Type II). Gyroscopes of the first type measure orientation angles directly, while gyroscopes of the second type measure rotational rate. Most MVG implementations to date are found exclusively in the angular rate measuring variety. This paper introduces a unified approach for description of MVGs, discusses design challenges, and introduces designs and experimental results demonstrating MVGs of both types. We demonstrate that even though challenging, Type I devices can be implemented using conventional micromachining technologies. This type of micromachined devices is new, unexplored, and may potentially enable high performance micro-scale gyros. Low-grade Type II gyroscopes have been already commercially successful. We summarize our results on Type II wide-bandwidth gyro concept and demonstrate that inherent robustness against parameter variation can be effectively achieved structurally, shifting the complexity from the control electronics to the structural design of Type II MVGs

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IEEE Sensors, 2005.

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