SU913095A1 - Device for formation of wide-band random vibration spectrum - Google Patents

Description

The invention relates to a testing technique, namely, devices for forming a spectrum of broadband random vibrations.

A device for forming a spectrum of random vibrations, comprising a noise generator, parallel-connected formation channels, each of which includes a band-pass filter and an adjustable amplifier, an adder common to all channels, the output of which is connected to the input of a vibration exciter, a vibration sensor, an analysis circuit including an analyzing filter, dispersion meter, comparator, the output of which is connected to the control input of an adjustable amplifier [1].

The device is characterized by insufficient accuracy of forming a spectrum of random vibrations due to the mutual influence of the forming channels.

The closest to the invention to the technical essence is a device for forming a spectrum of broadband random vibrations, containing parallel channels of formation, each of which includes a noise generator, a bandwidth

2

a filter, an adjustable amplifier and an adjustable attenuator connected in parallel with a band-pass filter; a common adder for all channels whose inputs are connected to the outputs of adjustable amplifiers,

5 and the output through the power amplifier - to the input of the exciter of oscillations, the vibration sensor, connected to its output of the feedback circuit, each of which includes a band-pass analysis filter, a meter

_1θ dispersion and comparison unit, the output of which is connected to the control input of the corresponding channel adjustable amplifier [2].

The device makes it possible to increase the accuracy of the spectrum formation if it is necessary to suppress high-quality resonances of the exciter with the product, however, the device has a large interaction of the formation channels, since the regulation in one channel is done by forming the control action using adjacent channels

is a disadvantage of the device.

The purpose of the invention is to improve the accuracy of formation by reducing the interaction between the channels of formation.

913095

This goal is achieved by the fact that the device is equipped with a functional converter in each channel of formation, the input of which is connected to the second output of the adjustable amplifier, and the output to the control input of the adjustable attenuator.

The functional converter can be made according to the amplifier circuit with negative feedback, the gain of which depends on the level of the input signal.

The drawing shows the block diagram of the device.

A device for forming a spectrum of broadband random vibrations contains parallel channels of formation; each of which includes a noise generator 1, a Q-bandwidth filter 2, an adjustable attenuator 3, the output of which is connected to the control input of the band-pass filter 2, and an input to the output of filter 2, and an adjustable amplifier 4, the second input of which is connected via a functional converter 5 to the control input of the attenuator 3. The outputs of all amplifiers 4 are connected to the adder 6, the output of which through the amplifier 7 power is connected to the input of the exciter 8 oscillations. The device also contains a vibration sensor 9, the output of which is connected to the input of the feedback circuits, each of which includes a band-pass analysis filter 10, a dispersion meter 11 and a scrapping unit 12, the output of which is connected to the control input of the adjustable amplifier 4.

The device works as follows.

The signal generator 1 noise with a uniform spectrum enters the band-pass filter 2 with adjustable Q, from the output of which the narrowband signal through the amplifier 4 is fed to the adder 6. From the output of the adder 6, the signal, which is the sum of narrow-band channel signals, is fed through the amplifier 7 to the exciter 8 vibrations, where the conversion of an electrical signal into mechanical vibrations. The vibration sensor 9, mounted on the table of the pathogen 8, converts mechanical vibrations into an electrical signal, which is fed to the inputs of bandpass analyzing filters 10. Dispersion meter 11 measures the dispersion value of the narrowband signal in the band of the analyzing filter 10, and compares it with the specified dispersion in the comparison unit 12 . The error signal of the comparison unit 12 is fed to the control input of the amplifier 4 of the corresponding formation channel and controls the gain value. From another output of the amplifier 4 signal proportional to

gain, is fed to the input of the functional transducer 5, where it is converted according to a given law.

The type of conversion function is selected depending on the squareness coefficient of the amplitude-frequency characteristics of the band-pass filters of the 2 forming channels.

From the output of the functional converter 5, the signal is fed to the control input of the adjustable attenuator 3 and controls the Q value of the filter 2. At the same time, the autonomy of the formation channels is achieved by simultaneously controlling the gains of the amplifier 4 and the Q value of the bandpass filters 2.

The invention improves the accuracy of forming a spectrum of random vibrations.

Claims (2)

Claim 1. Device for forming a spectrum of broadband random vibrations, containing parallel channels of formation, each of which includes a noise generator, a band-pass filter, an adjustable amplifier and an adjustable attenuator connected in parallel with a band-pass filter, an adder common to all channels, whose inputs are connected to the outputs of adjustable amplifiers, and the output through the power amplifier - to the input of the exciter of oscillations, the vibration sensor, connected to its output of the feedback circuit, each of which includes a band analysis a matching filter, a dispersion meter and a comparison unit, the output of which is connected to the control input of the corresponding channel adjustable amplifier, characterized in that, in order to improve accuracy by reducing the mutual influence between the formation channels, it is equipped with a functional converter in each formation channel, the input of which is connected to the second output adjustable amplifier, and the output - to the control input, adjustable attenuator. 2. Device by π. 1, characterized in that the functional Converter is made according to the circuit of the amplifier with negative feedback, the gain of which depends on the level of the input signal.