SU417796A1 - - Google Patents

Description

one

This invention relates to specialized, analog computing means iexHHKH.

In the known device for calibrating correlometers, using polyharmonic signals, the errors of correlometers intended for operation with input signals having a continuous spectrum are determined only at a discrete set of frequencies.

The use of a spectral phase shifter in the proposed device ensures that signals are output, all of which the spectral components are rotated relative to each other at the same angle, regardless of frequency. This is achieved by connecting to the signal source three logarithmic phase converters, of which the first is connected via a paraphase amplifier to the terminals of the potentiometer, the second to its midpoint, and the third to the dispersion meter and the correlometer input, the second input of which is connected to the potentiometer slider.

The block diagram of the device shown in the drawing.

The signal source 1 is connected to the input of an adjustable spectral phase shifter 2, consisting of logarithmic transducers of 3, 4 and 5 phases, a paraphase cascade 6 and a potentiometer 7 with a midpoint.

The output nanometers C / i (/) n / 2 (0 are removed, respectively, from the slider-potentiometer and from the logarithmic phase converter 5, parallel to the output of which the dispersion meter 8 is connected.

The logarithmic phase transducers are so tuned that the spectral components of the voltage at the output of the transducer 4 are shifted by 90 ° relative to the same components at the outputs of the transducers 3 and 5.

At a constant dispersion of the input signal, the dispersion of the signal Ui (t) changes depending on the position of the slide track, and the dispersion of the second signal is constant. The dispersion value may vary between 0.5-1.

The shift angle between the spectral components of the stresses Ui (t) and Uz (t) does not depend on frequency and is in the region

3. - arctgl - x

and on the plot //

21 -X

arctg

/ -lWhen changing .v from O to 2 / angle of angle a varies from O to 180 °. The normalized mutual correlation coefficient of the first and second signals is numerically equal to the cosine of

The shift between the spectral components of both stresses and when moving the slider changes from -1 to +1. The magnitude of the normalized correlation coefficient is determined by the dependence

Ru, u, - cos a.-a.Ui (i) Km (t), where a is the ratio of the dispersions of the first and second signals.

The potentiometer scale can be scaled in the values of the normalized correlation coefficient or in the values of / С, which are also in the range of -1 - + 1, and at constant dispersion of the input signal and the second transformed signal - directly in the values of the unnormalized mutual coefficient. correlation. The error in the installation of the latter is determined by the error in the logarithmic phase transducers and the width of the spectrum of the input signal, calibration over the entire range of measured values of the correlation coefficient, as well as high accuracy and ease of installation of the correlation coefficient.

Subject invention

A device for calibrating correlometers, containing a signal source, a dispersion meter and an off-phase amplifier connected to the terminals of a potentiometer, characterized in that, in order to improve the accuracy of the device, it contains logarithmic phase converters, the first

of which is connected to the input of a paraphase amplifier, the second to the midpoint of the noTCii gauge, the third is connected to the dnspersion meter and to the first input of the correlometer, the second inOXT. which is connected to dtspzhkom

potentiometer.

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