Implementation of the Spectral Method for Determining of Measuring Instruments' Dynamic Characteristics

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION Devices and Methods of Measurements Pub Date : 2020-06-26 DOI:10.21122/2220-9506-2020-11-2-155-162
A. F. Sabitov, I. A. Safina
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引用次数: 2

Abstract

The spectral method for establishing dynamic response of measuring instruments basically requires determining the amplitude spectrum of the signal in its informative part that includes the amplitude spectrum at zero frequency. The operating frequency range of existing low-frequency spectrum analyzers is above zero frequency that leads to an uncertainty in dynamic response of measuring instruments determined by the spectral method. The purpose of this paper is to develop a program for calculating the signal amplitude spectrum, starting from zero frequency, to implement a spectral method for determining the dynamic response of measuring instruments on computers equipped with the MatLab package.To implement the spectral method for determining the dynamic response of measuring instruments, we developed a program in the MatLab 2013b environment that determines the signal amplitude spectrum from zero Hertz. The program reads the source data from Excel tables and presents the calculated amplitude spectrum as a chart and a report table.It is shown that the developed program calculates the signal amplitude spectrum with a standard deviation of not more than 3.4 % in the frequency range of 0 to 10 rad/s. The calculated amplitude spectrum allows determining the time constant of first-order aperiodic measuring instruments with an uncertainty of not more than 0.166 % at any noise level, if their frequencies are outside the information part of the spectrum.We demonstrated the claimed advantage of the spectral method for determining dynamic response using the developed program by the example of a high-frequency noise in the transient response of some measuring instruments.
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光谱法测定测量仪器动态特性的实现
建立测量仪器动态响应的频谱法,基本上要求确定信号信息部分的幅度谱,包括信号在零频率处的幅度谱。现有低频频谱分析仪的工作频率范围在零频率以上,导致频谱法测定的测量仪器动态响应存在不确定性。本文的目的是开发一个计算信号幅度谱的程序,从零频率开始,在装有MatLab软件包的计算机上实现测定测量仪器动态响应的谱法。为了实现确定测量仪器动态响应的频谱法,我们在MatLab 2013b环境下开发了一个程序,从零赫兹开始确定信号幅度频谱。该程序从Excel表格中读取源数据,并以图表和报表的形式呈现计算出的振幅谱。结果表明,所编制的程序在0 ~ 10 rad/s的频率范围内计算出的信号幅度谱的标准差不超过3.4%。计算的振幅谱允许确定一阶非周期测量仪器的时间常数,在任何噪声水平下,不确定度不超过0.166%,如果它们的频率在频谱的信息部分之外。我们通过一些测量仪器瞬态响应中的高频噪声的例子,证明了利用所开发的程序确定动态响应的频谱方法的优点。
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来源期刊
Devices and Methods of Measurements
Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-
自引率
25.00%
发文量
18
审稿时长
8 weeks
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