实现平面转子的稳定悬浮是磁悬浮陀螺的关键所在。
It is top key for the magnetically suspended gyro to realize stable suspension of the planar rotator.
磁悬浮飞轮转子在高转速下表现出的陀螺效应是影响系统稳定性的主要因素。
At high rotational speeds, the gyroscopic effect of flywheel rotor is the major factor that influences rotor stability.
磁悬浮控制力矩陀螺(CMG)中转子一阶弹性模态自激振动是影响磁悬浮高速转子系统稳定性的关键因素之一。
In magnetically suspended control moment gyroscope (CMG), self-excited vibration of high-speed rotor is one of principal factor which effects stability of active magnetic bearing (AMB) system.
电磁悬浮转子微陀螺(MGELR)是一种新型的角速率传感器,它和传统机械陀螺具有相同的工作机理。
Micromachined gyroscope with electromagnetically levitated rotor (MGELR) is a new kind of an-gular rate sensor, which has the same working mechanism as traditional mechanical gyroscope.
为了实现磁悬浮转子微陀螺的电容检测,使用数值积分方法计算了新型磁悬浮转子微陀螺的电容值与转子倾斜角度的关系。
The relationship between input angle and output differential capacitance is presented for the realization of the capacitance signal detection of micro electromagnetic disk levitating gyroscope.
为了实现磁悬浮转子微陀螺的电容检测,使用数值积分方法计算了新型磁悬浮转子微陀螺的电容值与转子倾斜角度的关系。
The relationship between input angle and output differential capacitance is presented for the realization of the capacitance signal detection of micro electromagnetic disk levitating gyroscope.
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