The micro quartz crystal tuning fork gyroscope is a new type of vibratory gyroscope.
石英音叉陀螺是一种新型的振动陀螺。
A new closed-loop driving scheme for the silicon micromachined vibratory gyroscope (SMVG) is proposed.
介绍了一种新的硅微陀螺仪闭环驱动方案。
In this thesis, we present a novel approach to estimate angular rates of MEMS vibratory gyroscope systems.
本篇论文中,提出了使用在振动陀螺仪上,估测角速度的一个新方法。
Driving stability of the micromachined vibratory gyroscope is of critical importance in its performance and reliability.
硅微振动陀螺仪驱动模态的稳定性对其性能及可靠性有着重要作用。
This paper primarily addresses the influence of large signal input on the resolution of the fence structure vibratory gyroscope and its interface circuit.
主要研究了大角速度信号输入对栅结构振动式微陀螺及其检测电路分辨率的影响。
The natural frequency, quality factor, first mode of fold beam and Young's modulus of the double linear vibratory gyroscope were measured by the new setup.
并用此方法测量了双线性振动陀螺的固有频率、品质因子、—阶模态振型和杨氏模量。
This paper Presents a piezoelectric vibratory gyroscope with the properties of high sensitivity, high linearity, low shift and resistance to shock vibration and noise.
介绍一种高感度,高线性,低漂移,小型,量轻,价廉,并且耐冲击振动和噪声影响的压电振动陀螺。
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.
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。
The control object in a single-freedom silicon micromachined vibratory gyroscope is the proof mass, because of system structure, feedback control is the only choice to control the proof mass.
以单自由度硅微振动轮式陀螺仪的检测动极板为控制对象,系统的结构特性决定了只能选择反馈控制方式对其进行控制。
This paper gives the dynamic equations of vibratory wheel silicon micromechanical gyroscope and their motion law, analyses drifts of the gyroscope, when vehicle rotates around any axis uniformly.
推导了硅微机械振动轮陀螺仪的动力学方程,给出了它的运动规律,分析了载体绕空间任意轴匀速旋转时干扰力矩所引起的漂移率。
The drive circuitry of the silicon micromachined gyroscope based on adaptive control is investigated. The coherence of two vibratory modes is achieved utilizing adaptive tuning at a given frequency.
研究了基于自适应控制的硅微振动陀螺仪的驱动电路设计,通过固定频率信号驱动和自适应调谐实现双驱动模态的一致性。
The drive circuitry of the silicon micromachined gyroscope based on adaptive control is investigated. The coherence of two vibratory modes is achieved utilizing adaptive tuning at a given frequency.
研究了基于自适应控制的硅微振动陀螺仪的驱动电路设计,通过固定频率信号驱动和自适应调谐实现双驱动模态的一致性。
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