Design and experiment of micro-machined vibratory gyroscope

Jia Fang-Xiu; QIU An-ping; SHI Qin; SU Yan

doi:10.3788/OPE.20132105.1272

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Design and experiment of micro-machined vibratory gyroscope

更新时间：2020-08-12

- Design and experiment of micro-machined vibratory gyroscope
- Optics and Precision Engineering Vol. 21, Issue 5, Pages: 1272-1281(2013)
- 作者机构：
  
  南京理工大学 MEMS惯性技术研究中心2. 南京理工大学机械工程学院
- 作者简介：
- 基金信息：
- DOI：10.3788/OPE.20132105.1272
  CLC： V666.123;V241.5
- Received：20 November 2012，
  
  Revised：15 January 2013，
  
  Published Online：24 May 2013，
  
  Published：15 May 2013
- 稿件说明：
移动端阅览
贾方秀裘安萍施芹苏岩. 硅微振动陀螺仪设计与性能测试[J]. 光学精密工程, 2013,21(5): 1272-1281

Jia Fang-Xiu QIU An-ping SHI Qin SU Yan. Design and experiment of micro-machined vibratory gyroscope[J]. Editorial Office of Optics and Precision Engineering, 2013,21(5): 1272-1281
贾方秀裘安萍施芹苏岩. 硅微振动陀螺仪设计与性能测试[J]. 光学精密工程, 2013,21(5): 1272-1281 DOI： 10.3788/OPE.20132105.1272.

Jia Fang-Xiu QIU An-ping SHI Qin SU Yan. Design and experiment of micro-machined vibratory gyroscope[J]. Editorial Office of Optics and Precision Engineering, 2013,21(5): 1272-1281 DOI： 10.3788/OPE.20132105.1272.

摘要

介绍了基于DDSOG(Deep Dry Silicon On Glass) 工艺自主研发的硅微振动陀螺仪的结构，封装，及信号与性能检测。利用结构解耦的方法和DDSOG工艺设计和制备了双质量线振动式陀螺结构。为了提高它的机械灵敏度、可靠性和长期稳定性，采取真空封装技术实现了器件级真空封装，并消除了轴向加速度等共模干扰的影响。陀螺电路采用自激闭环驱动、开环检测的方式，简化了电路。为了降低环境温度对陀螺零偏的影响，研究了既定范围内陀螺的输出特性，建立了陀螺输出与温度之间的关系模型，设计了温度补偿电路，降低了陀螺整表的功耗和体积。对采用上述技术的硅微陀螺仪进行了性能测试，测试结果表明，陀螺Q值

100 000，量程为500（）/s，标度为21.453 mV（）

-1

，非线性和对称性分别为36.90510

-6

和184.12510

-6

。常温下陀螺零偏稳定性为7.714 3（）/h，带宽为100 Hz，整表体积为31mm31mm12mm，功耗为288 mW。该陀螺仪性能好、体积小、功耗低，在中等精度的惯性导航系统中有较好的应用前景。

Abstract

A novel MEMS vibratory gyroscope was fabricated by our research group

and its structure

packaging

signal detection and performance measurement were described. The dual-mass MEMS vibratory gyroscope was designed by a structuredecoupled method and prepared by the Deep Dry Silicon On Glass (DDSOG). To improve the mechanical sensitivity

reliability and stability

the gyroscope was packaged by vacuum technology and the common mode disturbance caused by axial acceleration was also eliminated. A self-resonance drive circuit with Automatic Gain Control (AGC) was employed in the drive closed loop to keep the stable amplitude and frequency of the drive-mode. The open loop detect circuit was adopted to simplify the whole control system. In order to reduce the temperature impact on the bias of gyroscope

the gyroscopes outputs within a certain temperature range were studied

and the relationship model between gyroscope outputs and temperature was established. On the basis of the model

a proper temperature real-time compensation system using a platinum resistor was designed to reduce the power comsumption

meanwhile to minimize the volume of the system. The experiment results show that the gyroscope has a quality factor above 100 000

the operating range of 500()/s with the scale factor of 21.453 mV（）

-1

and nonlinearity and asymmetry errors of 36.90510

-6

and 184.12510

-6

respectively. Moreover

at room temperature the bias of the gyroscope is 7.714 3()/h over a 100 Hz bandwidth

the whole system volume is 31 mm31 mm12 mm and the power consumption is 288 mW. The proposed vibratory gyroscope has a promising prospect for the inertial navigation system with a medium accuracy due to its high performance

small volume and low power consumption.

关键词

Keywords

references

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