试验结果表明,利用三轴转台可以成功地将陀螺加速度表测试精度提高一个数量级。
The test results show that the PIGA's test precision can be improved one order higher using three-axis turntable.
本文对三轴陀螺伺服转台模型进行了较为详细的分析,并进行了适当的简化,在此基础上对系统进行了解耦设计。
Detailed model analysis and proper simplification for gyro servo system of the three axis turntable are presented. Then the decoupling design is made for the system.
本文简述了陀螺漂移测试转台及其主要元部件的现状。
The current conditions of gyroscope drift test table and its main parts were presented in this paper.
采用自行研制的精密速率转台进行了速率偏频激光陀螺的实验研究。
With a specially designed precision rate table, the experimental research on the ring laser gyro with rate biasing has been carried Out.
分析了三轴转台设备误差源;讨论了转台误差对陀螺加速度表测试精度的影响。
The error source of the three-axis turntable is analyzed, which affect the precision of test of pendulous integrating gyro accelerometer (PIGA).
分析了速率偏频激光陀螺的偏频转台对陀螺漂移的调制效应,通过数字仿真定量分析了速率偏频激光陀螺漂移引起的导航参数误差。
The modulation effect of the bias of rate biased ring laser gyro is analysed. The error which is induced by the bias of rate biased ring laser gyro is analysed through digital simulation.
文中讨论了速率偏频激光陀螺在系统中的精确标定方法,指出该方法需要特殊的转台设备,目前尚无法满足,因此提出了一种结合光学方法测量陀螺安装误差角。
This paper discusses the RLG calibration method, and points out that the precise calibration of the rate biased RLG need special equipment that is not available at present.
最后给出了光纤陀螺对转台角速率测试的下限。
最后给出了光纤陀螺对转台角速率测试的下限。
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