介绍了用HP-VEE软件及现有设备实现数字电压表的自动化测试,提高了测量速度,减少了由于人员因素造成的误差。
This paper introduces achievement of an automatic test of he digital voltmeter with HP-VEE software and available equipment to increase the measuring speed, decrease the personal error.
在全面考虑影响陀螺加速度表的误差因素的基础上,建立了陀螺加速度表的误差模型。
In this paper PIGA error model is established based on all-round effect of error factor for PIGA.
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).
陀螺加速度表的误差模型的建立对实现有效的误差补偿和可靠地提高惯性系统实用精度提供理论依据。
The establishment of PIGA error model provides a theory basis to implement error compensation effectively and to raised precision of inertial system reliably.
加速度 表是飞行器的重要传感器之一 ,使用前需进行动态测试、误差分离和补偿。
Objective To provide the basis for medical evaluation of spacecraft, and to measure the impact acceleration of return-cabin of spacecraft.
加速度 表是飞行器的重要传感器之一 ,使用前需进行动态测试、误差分离和补偿。
Objective To provide the basis for medical evaluation of spacecraft, and to measure the impact acceleration of return-cabin of spacecraft.
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