SU785734A1 - Apparatus for wide-band random-vibration testing - Google Patents

Description

(54) DEVICE FOR TESTING FOR BROADBAND RANDOM VIBRATION

Claims (1)

The invention relates to vibration technology and is intended to control vibration settings when testing various products. A device is known to be tested for a wideband random vibration containing sequentially connected shakers, an analog-digital converter, a spectrum analyzer, a signal synthesizer and a digital-analog converter, a spectrum programmer connected to the second input of the signal synthesizer 1. The disadvantage of this device is a relatively small range working frequencies. The purpose of the invention is to increase the operating frequency range of the device. This goal is achieved in that the device is equipped with two programmable filters installed at the input and output of the shaker, connected in series by a clock generator and a frequency multiplier, the output of which is connected to the spectrum analyzer and signal synthesizer, the spectrum indicator whose inputs are connected to the spectrum torus analyzer and programmer outputs multiplier, digital indicator, programmer of the number of the spectral line, the outputs of which are connected to the output of the spectrum indicator and To a digital indicator input, and a range programmer, the output of which is connected to the control inputs of the frequency multiplier, multiplier of the input and output programmable filters. The drawing shows a block diagram of a device for testing broadband random vibration. The device contains sequentially connected in a closed circuit vibrostand 1, an output programmable filter 2, an analog-digital converter 3, a spectrum analyzer 4, a signal synthesizer 5, a digital-to-analog converter 6, an input programmable filter 7. The programmer 8 of the spectrum is connected to the second input of the synthesizer 5 signal. The clock generator 9 is connected in series with a frequency multiplier 10, the output of which is connected to a spectrum analyzer 4 and a signal synthesizer 5. 78 The inputs of the spectrum indicator 11 are connected to, i outputs of the spectrum analyzer 4 and the spectrum programmer 8. The outputs of the programmer 12 of the spectral line number are connected to the input of the spectrum indicator 11 and through the multiplier 13 to the digital indicator 14 input. The programmer 15 is connected to the control inputs of the frequency multiplier 10, the multiplier 13 of the output 2 and the input 7 programmable filters. The device works as follows. The input signal from the vibrostand 1 is fed through an output programmable filter 2 and an analog-digital converter 3 to the spectrum analyzer 4, the spectrum analyzer 4 stores the input realization of a certain duration, which is then analyzed, as a result of which information about the input signal appears at its output, In the programmer 8 of the spectrum, information was recorded about the spectrum of a random signal, which should be reproduced on the vibration stand 1. Both information are fed to the inputs of the synthesizer 5 signal, where they are compared between fight. The result of the comparison is used to create a random signal, which, after passing the digital-to-analog converter 6 and the input programmable filter 7, is fed to the input of the vibrating stand 1, where it creates a vibration, the spectrum of which coincides with the spectrum recorded by the programmer 8. The range programmer 15 has at its output a number corresponding to the upper limit of the specified frequency range of the signal, which sets the passbands of the output 2 and input 7 programmable filters so that the analog signal in the specified frequency band passes through them without attenuation, and outside the specified frequency band the signal has attenuation, which affects the quality of control of the shaker 1. In addition, the signal from the programmer 15. The range is fed to the input of the frequency multiplier 10, which multiplies the constant frequency of the signal fed to it from the oscillator 9 to the number coming from the programmer 15 of the range. The output signal is clever; the occupant of frequency 10 is fed to the inputs of the spectrum analyzer 4 and the signal synthesizer 5. This signal determines the clock frequency of the recording of the implementation in the memory of the spectrum analyzer and also reads the real read frequency; not the memory of the signal synthesizer 5. The larger the number was set in the programmer 8 of the spectrum, the faster the recording occurs and. the reading, the more high-frequency components of the input signal are determined by the spectrum analyzer 4, the higher the frequency shifted spectrum of the signal at the output of synthesizer 5. Simultaneous 4 The spectrum of the vibrosignal signal and the spectrum specified in the programmer 8 are fed to the inputs of the indicator 11, on the screen of which both spectrum, which can therefore be compared between each other, determines the frequency error of the signal reproduced on the vibration set. The number of spectral lines on the indicator screen is always constant, since the number of spectral lines determined by analyzer 4 is always constant. However, the absolute value of the frequency of an individual spectral line may be different depending on the information at the output of the programmer of the 15th range. To accurately determine each frequency component of the spectrum on the programmer 12, the spectral line numbers set the number that goes to the spectrum indicator 11 and highlights the spectral line on its screen corresponding to the number set on the programmer 12. At the same time, this number is multiplied by the programmer number 8 of the multiplier 13, and the result of the operation is displayed on a digital indicator 14. The number displayed is the absolute value of the frequency of the spectral line highlighted on the screen of the indicator 11 spectrum. By changing the number at the output of the programmer 12, it is possible to determine the absolute frequency of any spectral line on the screen of the indicator 11 when operating the device in any frequency range determined by the programmer 15 of the range. The invention extends the frequency range of the installation to test various Constructions for the effect of random vibration. Apparatus of Testing Device for Broadband Random Vibration comprising sequentially connected shakers, analog-digital converter, spectrum analyzer, signal synthesizer and digital-analog converter, spectrum programmer connected to the second signal synthesizer input, characterized in that, in order to increase operating frequency range, it is equipped with two programmable filters installed at the input and output of the shaker, connected in series with the clock a generator and a frequency multiplier whose output is connected to a spectrum analyzer and signal synthesizer, a spectrum indicator whose inputs are connected to the outputs of a spectrum analyzer and a spectrum programmer, a multiplier, a digital indicator, a programmer for the number of the spectral line whose outputs are connected to the input of the indicator, spectrum and through a multiplier to the digital input57857346 indicator, and a range programmer, information sources, the output of which is connected to the managers of the input-taken into account during the examination dami frequency multiplier, multiplier, input-1. US patent number 3710082, CL. G 01 H 29/00, and output programmable filters.1973 (prototype),