提高球面球轴承悬架陀螺仪精度的方法

D. M. Malyutin, V. Raspopov, Yu. V. Ivanov
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引用次数: 0

摘要

本文研究了一种提高球面球轴承悬置陀螺在其底座的偏转角计模式下工作精度的方法。当将陀螺仪作为信息测量和控制系统的一部分操作时,诸如读数精度这样的操作特性(取决于陀螺仪输出信号的噪声成分)具有决定性的重要性。本文的目的是解决在降低输出信号的噪声成分的同时,保持器件的宽带宽和输出信号相对于测量值的最小相位延迟的问题。本文概述了现有的器件建设方案。给出了陀螺仪功能的数学描述,并在此基础上得到了沿正通道和交叉通道的力矩(扰动、控制或总力矩)传递函数。传递函数是输出信号与测量值通过直接通道和交叉通道的比值。注意到,输出信号噪声分量的主导频率对应于陀螺仪转子的旋转频率、陀螺仪转子的旋转频率和陀螺仪转子的多个旋转频率。提出了将球面球轴承悬架陀螺仪角度传感器的信号与附加角速度传感器的输出信号按相应坐标相加,然后利用一阶非周期链路对总信号进行平滑处理的系统结构。计算结果可用于确定角速度计的通道参数,在此条件下可以补偿由于平滑滤波器的时间常数而导致的角度测量通道带宽限制,同时保证有效抑制输出信号的噪声成分。所提出的仪表结构方案是:在陀螺仪转子250 Hz旋转频率下,将陀螺仪输出信号中的噪声分量衰减156倍,在陀螺仪转子404 Hz张动振荡频率下,将陀螺仪输出信号中的噪声分量衰减256倍,在500 Hz频率下,将陀螺仪输出信号中的噪声分量衰减316倍,在750 Hz频率下,将陀螺仪输出信号中的噪声分量衰减474倍,在1000 Hz频率下,将陀螺仪输出信号中的噪声分量衰减630倍。当测量一个角时,从被测角输出信号的相位滞后在带宽中接近零度,则保持285 Hz的宽带宽。
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Method for Increasing the Accuracy of a Gyroscope with a Spherical Ball Bearing Suspension
The article is devoted to the development of a method for improving the accuracy of a gyro with a spherical ball bearing suspension operating in the mode of a deflection angle meter of the base on which it is installed. When operating a gyroscope as part of an information-measuring and control system, such an operational characteristic as the accuracy of readings, depending on the noise component of the gyroscope output signal, is of decisive importance. The purpose of the article is to solve the problem of reducing the noise component of the output signal while maintaining a wide bandwidth of the device and a minimum phase delay of the output signal in relation to the measured value. The paper provides an overview of the existing device construction schemes. A mathematical description of the functioning of the gyroscope is presented, on the basis of which the transfer functions for the moment (disturbing, controlling or total) along the direct and cross channels are obtained. Transfer functions are also obtained, which are the ratio of the output signal to the measured value through direct and cross channels. It is noted that the predominant frequencies of the noise component of the output signal correspond to the rotational frequency of the gyroscope rotor, the rotation frequency of the gyroscope rotor and the multiple rotation frequencies of the gyroscope rotor. The structure of the system is proposed in which the signal from the gyroscope angle sensor with a spherical ball bearing suspension is summed up with the output signal of an additional angular velocity sensor according to the corresponding coordinate and then the total signal is smoothed using an aperiodic link of the first order. The results are obtained for determining the parameters of the channel of the angular velocity meter, at which it is possible to compensate for the bandwidth limitations in the channel of the angle measurement due to the time constant of the smoothing filter and at the same time ensure effective suppression of the noise component of the output signal. The proposed construction scheme of the meter provides attenuation of noise components in the output signal of a gyroscope with a spherical ball bearing suspension at a rotation frequency of the gyroscope rotor 250 Hz by 156 times, at a frequency of nutation oscillations of the gyroscope rotor 404 Hz by 256 times, at a frequency of 500 Hz by 316 times, at a frequency of 750 Hz by 474 times, at a frequency of 1000 Hz by 630 times, at a frequency of 1250 Hz by 785 times while maintaining a wide bandwidth of 285 Hz when measuring an angle with a phase lag of the output signal from the measured one close to zero degrees in the bandwidth.
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来源期刊
Mekhatronika, Avtomatizatsiya, Upravlenie
Mekhatronika, Avtomatizatsiya, Upravlenie Engineering-Electrical and Electronic Engineering
CiteScore
0.90
自引率
0.00%
发文量
68
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