三平衡环微动调谐陀螺仪的结构设计与仿真

The 8th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems Pub Date : 2013-04-07 DOI:10.1109/NEMS.2013.6559883

Dunzhu Xia, Cheng Yu, Shourong Wang, Hongsheng Li, Lun Kong

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引用次数: 3

摘要

设计了一种三平衡环微动调谐陀螺仪(MDTG)结构，消除了传统微动调谐陀螺仪由于传动轴双旋转频率而产生的误差。给出了优化后的结构参数下的仿真结果。模态频率与模拟的电机旋转频率167Hz分离。在重力和载荷作用下的静态变形控制在1μm以内。模拟了转子在一定转速下的动态变形。静电容模拟后，极板与转子盘的组装距离选择在40μm ~ 60μm之间。

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Structure design and simulation of micro dynamically tuned gyroscope with three equilibrium rings

The structure of a micro dynamically tuned gyroscope (MDTG) with three equilibrium rings has been designed to eliminate the error caused by the double rotation frequency of the driving shaft like traditional DTG. Some simulations under the optimized structure parameters are given. The mode frequency is separated from 167Hz of the rotation frequency of the motor as simulated. The static deformation is controlled within less than 1μm under gravity and a load in our mechanical simulations. The dynamic deformation is simulated when the rotor rotates at a specified speed. The assembly distance between the electrode plates and the rotor disk is chosen from 40μm to 60μm after the static capacitance simulation.

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The 8th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems

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