SU578638A1 - Device for shaping broad-band random vibrostand exciting signal - Google Patents

Description

The invention relates to the field of vibration testing of products, namely, devices for forming a broadband random shaker excitation signal.

A device for generating a broadband random exciter excitation signal is known, which contains a source of white noise, parallel formation channels, each of which has a serially connected band-pass filter and an adjustable amplifier, an automatic gain control unit, an open adder, and a multichannel memory unit, source of narrowband random signals 1. In this device, signal generation and analysis are combined by using a multi-channel memory block. However, the formation error is rather large due to the instability of the filter parameters, since the process of recording signals from a multi-channel memory block and the process of playing back signals is divided in 1 time.

A device for generating a broadband random shaker excitation signal, comprising parallel shaping channels, each of which has series-controlled, serially connected to a common white noise generator.

a bandpass filter amplifier, a dispersion meter, a comparison unit, the output of which is connected to the regulating input of the bandpass filter amplifier, and a program master, a common adder, the inputs of which are connected to the outputs of the bandpass filter amplifiers, and the output is connected to the Vibrantnd input 2.

This device does not provide sufficient accuracy in the formation of a wideband random excitation signal from a vibrating stand due to the fact that it does not include the mutual form of the channels formed due to the fidelity of high frequency filters used by bandwidth filter amplifiers.

The goal of the rollout is to create the accuracy of the formation of the correlation of the mutual influence of the forming channels.

This is achieved due to the fact that in each channel of the formation a single adder is inserted, the output of which is connected to the input of a bandpass filter amplifier, one input to the generator of white noise, the other inputs to the outputs of the bandpass filter etc. of other channels, and Each channel has a separate white noise generator.

The drawing is a block diagram of the described device.

The device contains parallel channels of formation, in each of which there are serially connected white noise generator 1, channel adder 2, adjustable bandpass filter amplifier 3, dispersion meter 4, unit 5 comparison to program setpoint 6. The outputs of the adjustable bandpass filter amplifiers 3 are connected to the input of the common adder 7. In each of the 113 formation channels, the inputs of the channel adder 2 are connected to the outputs of the adjustable bandpass filter amplifiers 3 other shaping channels, and the output of each comparison unit 5 is connected to the regulating input of the bandpass amplifier 3 of its own channel.

The device works in the same way.

Random signals from the outputs of white noise generator 1 are passed through channel adders 2 and fed to the input of adjustable bandpass filter amplifiers 3, the output signals of which are summed in a common adder 7. The required transmission coefficients of adjustable bandpass filter amplifiers are set automatically using error signals, produced by the corresponding comparison units 5, one of the inputs of which receives signals proportional to the power of the output signals of the bandpass filter amplifiers 3 into the band their transmissions, measured by dispersion meters 4, and program inputs from setters 6 arrive at the second input. The amplitudes of the signals of the adjustable band-pass filter amplifiers in each channel are automatically controlled with regard to the transmitting signals (due to the imperfection of the amplitude-frequency characteristics of the bandwidth). filter amplifiers) of the other channels. For this purpose, the input of the channel adder 2, in each adjustable channel, receives signals from the output of the corresponding bandpass filter amplifier 3, which is not included in the circuit of this channel. Introduction of new elements - channel

adders, appropriately connected, allows to increase the accuracy of the obtained energy spectrum of broadband random vibrations to a given one. It improves the quality

r | pO 1 sdimykh sptitapig and allows to obtain objective assessments of the quality of products.

Claims (2)

1. USSR author's certificate 347612, “l. G 01M 7/00, 1970. 2. USSR author's certificate vN 433427, cl. G 01M 7/00, 1972.