SU578639A1 - Device for shaping broad-band random oscillation spectrum - Google Patents

Description

one

The invention relates to the control of vibration tests of products, namely, devices for forming a spectrum of broadband random vibrations on vibrating tables.

A device for generating a spectrum of broadband random vibrations is known, comprising a white noise generator connected to an adder, which is connected to a shaker. A vibration measuring transducer is attached to the vibrostand, connected to a set of band-pass filters. The outputs of the bandpass filters through measuring devices are connected to tunable attenuators. The signals from the comparison circuits control the transfer coefficients of the attenuators, the inputs of which receive signals from the voice filters, and their outputs are connected to the common adder 1.

However, a significant depth of feedback is necessary to provide a large dynamic range and generates stringent requirements on the stability of the elements of the feedback circuit to eliminate the possibility of self-excitation of the device, as well as the correlation of adjacent channels caused by the use of a common white noise generator and resulting in spurious feedback in each channel through the adjacent due to the difference

the amplitude-frequency characteristics of band-pass filters from rectangular filters are disadvantages of the known device, causing its lack of accuracy. It is also known a device for forming a spectrum of broadband random vibrations, comprising parallel channels of which are connected to a white noise generator and has

a series-connected voice filter, a regilator, a dispersion meter, a comparison unit, the output of which is connected to the amplifier controlling it, and the program master, the common adder,

connected to the outputs of the amplifiers, the vibrator and the vibration measuring transducer 2.

This device is the closest in technical essence to the invention.

However, the presence of a common schum generator in the system leads to the mutual influence of adjacent channels of formation and, as a result, to ionization of the accuracy of forming the required spectrum of broadband random vibrations.

The aim of the invention is to improve the accuracy by eliminating the mutual correlation of channel signals and increasing the stability margin of the systems as a whole.

To do this, in the proposed device, an adjustable attenuator with a transfer characteristic, a reverse transfer characteristic of the adjustable amplifiers are introduced into each channel of the amplifier; noise and attenuator output, and output to the input of the low-pass filter, with each formation channel having a separate white noise generator.

The drawing shows a block diagram of the proposed device.

White noise generators I, which serve as sources of wideband random signals, are connected via channel adders 2 with bandpass filters 3, the outputs of which are connected to respective adjustable amplifiers 4. General adder 5 serves to sum the signals of adjustable amplifiers 4, and its output is connected to the input vibrator 6. Vibration transducer 7, mounted on the table of the vibrator 6, through adjustable attenuators 8 is connected to the inputs of channel adders 2. The outputs of adjustable amplifiers 4 through meters disie 9, these are connected to a comparison unit 10, from which the program setting devices (not shown) supplied voltage nporpaiMMbi f / np. Comparison units 10 control the transmission coefficients of adjustable amplifiers 4 and adjustable attenuators 8 included in the forward and reverse circuits of the h-circuit.

The device works as follows: in one way.

The signals from the outputs of white noise generators 1 through channel adders 2 and bandpass filters 3 are fed to the input of adjustable amplifiers 4, where they are scaled and then added to the total adder 5. Signals from the output of this adder are fed to the input of vibrator b, the mechanical oscillations of which are converted into vibration measurement converter 7 into electrical signals, which are fed through adjustable attepuators 8, on the inputs of drip adders 2, thereby closing the positive feedback circuit. Thus, the direct target of the closed channel system includes a channel adder 2, a band-pass filter 3, and an adjustable amplifier 4. All other elements form a feedback circuit. To provide the necessary stability margin for a closed-loop system, the transmission ratio of the feedback loop is chosen much less than one. For this, the transfer ratio / Cs of the adjustable attenuator 8 must be equal to

/ G - 1

where / (4 is the gain of the regulated amplifier 4;

С - к: The coefficient of non-uniformity of the specCra of the formed signal, and С is always 1. Moreover, the transfer coefficient of each

band-pass filter 3 with closed-loop feedback when the transmission coefficient of the band-pass filter 3 is one, is determined by the transmission coefficient K :. Due to this, the dispersion meters 9 measure the signal power in the filter band 3. Further, this signal is compared with the program voltages in the comparison units 10. The signals whose voltage is proportional to the magnitude of the error between

the signal measured and set, the necessary control of the transmission coefficients of adjustable amplifiers 4 and adjustable atteaters 8 is implemented. Introducing separate noise generators 1 into the device eliminates the correlation of adjacent channels and thus the presence of spurious feedback that would occur in each channel of the bandpass filter 3 through adjacent N-1 channels in a shared device

noise generator due to the non-ideal amplitude-frequency characteristics of the bandpass filters 3, which especially sushi: has a significant effect on the stability of the device when there is a significant unevenness of the generated energy spectrum.

Introduction of new elements - adjustable attenuators, controlled synchronously with adjustable amplifiers, as well as individual noise generators, whose signals

summed in channel accumulators with feedback signals, allows to increase the accuracy of formation and disarm a significant margin of stability of the device while increasing its resolution

according to the non-uniformity of the spectral density of the formed broadband random vibroprocess. This expands the class of tested products and allows testing of products with a large number of high-Q resonances and antiresonances, and also eliminates the danger of possible breakdown of the tested products during self-excitation of the control device in case of loss of stability margin.

Claims (2)

1. Certificate of Authority No. 410328, cl. G 01M 7/00, 1971. 2. Author's review N ° 433427, cl. G 01M 7/00, 1972.