SU879325A1 - Method and device measuring oscilation system complex frequency characteristics - Google Patents

Description

(54) METHOD AND DEVICE FOR MEASURING COMPLEX FREQUENCY CHARACTERISTICS OF VIBRATIONAL SYSTEMS

Claims (2)

The invention relates to a vibration technique and is intended to measure the complex frequency characteristics of oscillating systems. A known method for measuring complex frequency characteristics of oscillatory systems consists in exciting an oscillating system with a sequence of pulses, measuring its oscillations and analyzing oscillation spectra 1 synchronously. A device for measuring the complex frequency characteristics of oscillating systems contains a digital spectrum analyzer with a sampling frequency generator, a signal source start the analysis of the torus with a coincidence circuit and serially connected frequency divider, excitation generator, excitement the test set with the input and output sensors installed through the digital spectrum analyzer arithmetic unit with the recorder, the output of the correlation circuit is connected to the spectrum spectrum analyzer, the second input from the excitation generator, and the output of the frequency separator. The disadvantage of the method; and the device is not able to get rid of sinusoidal interference with a frequency that is a multiple of the sampling frequency, due to penetration through the equivalent filar of the sinusoidal component with components that are within the frequency of its transmission. The purpose of the invention is to improve the noise immunity. This goal is achieved by changing the repetition period of the excitation pulses during the measurement process. A device for carrying out the method is provided with a modulating signal generator, the output of which is connected to the input of a sampling frequency generator. The drawing shows a diagram of the device that implements this method. The device contains a digital spectrum analyzer 1 with a generator 2 often. sampling source 3 of the analyzer 1 start signals, the output of which is connected to coincidence circuit 4, serially connected divider 5, excitation generator 6, exciter 7 of test structure 8 with input 9 and output 10 sensors installed on it, and digital spectrum analyzer 1, ari (} a contingent unit 11 with a recorder 12, an output of a coincidence circuit 4, is connected to a digital spectrum analyzer 1, and the second input is connected to an excitation generator 6. The output of the sampling frequency generator 2 is connected to the divider input by 5 frequencies, and input - output signal of the modulating signal generator 13. The device operates as follows. The modulating signal generator 13 controls the sampling frequency generator 2, From the output of the discretization frequency generator 2, the signal through the frequency divider 5 controls the excitation generator 6. The signal from the excitation generator 6 goes to the exciter 7, which causes oscillations of the test structure 8, which are recorded by the input 9 and output 10 vibration sensors and supplied to the digital spectrum analyzer 1, and through it to the arithmetic unit 11 and recorder 12, analyzer triggered by signals from the signal source 3 run analyzer 1 through the coincidence circuit 4, in the presence of signals from the excitation generator 6. The application of the proposed method and device allows increasing the noise immunity, due to the suppression of sinusoidal interference with the sampling frequency. Claim 1. A method for measuring the complex frequency characteristics of oscillating systems, comprising exciting a oscillating system with a pulse train, measuring its oscillations, and analyzing oscillation spectra synchronously, which in order to improve noise immunity, during the measurement change the repetition period - excitation pulses 2. A device for measuring the complex frequency characteristics of oscillatory systems, containing qi (: | anvoltage spectrum analyzer with a frequency generator. Discretization, an analyzer trigger source with a coincidence circuit and a serially connected frequency divider, excitation generator, the test design causative agent with input and output sensors, and through a digital spectrum analyzer an arithmetic unit with a recorder, the output of the coincidence circuit is connected to a digital spectrum analyzer, the second the input is with the output of the excitation generator, and the output of the sampling frequency oscillator with the input of a frequency divider, characterized in that it is equipped with a modulating signal generator, the output of which is connected to the input of the sampling frequency generator Sources of information taken into account during the examination 1. USSR author's certificate NO 6.62824, Cl, 001NZ / O8, 1980, (prototype). ff / already