SU612180A1 - Arrangement for octave analysis of spectrum in walsh basis - Google Patents

Description

In addition, the first generation of control pulses was added to each of the octave analyzers, the input of which is connected to the input of the multiplication unit, and the output to the second input of the integrator, and starting from the second octave analyzer each of them. additionally introduced are the second integrator and the second driver for control pulses, the output of which is connected to the second input of the second integrator, with its second input connected to the output of the quadrant, while the first input of the second driver channeling constituent pulses connected to the second output of the first control yuschih.impulsov shaper and the second input to the second output of the function generator, wherein the function generator is designed as a binary counter. . In the drawing, the diagram of the proposed device is given. This device contains the generator 1 Walsh functions, made in the form of a binary counter, and connected to the first outputs of it are P octave analyzers P, each of which is made in the form of series-connected integrator multiplication block P and a quad. In each of the octave analyzers M, the first generator of control pulses h is added, the input of which is connected to the input of the multiplication unit h, and the output is connected with the second input of integrator P, the analyzer P is additionally introduced in octave analyzers of H and the second driver AND control pulses Output , driver for control pulses connected: to the second input of the second integrator P connected to the quad P The first input of the second driver control pulse is connected to the second output of the first driver P channeling constituent pulses and the second input - to the second output of the generator 1 1O functions. The device operates as follows. The output voltage of the Meander type from the 1st output of the generator of 1 functions, performed as a binary counter, is used in the multiplication unit of the i -th octave analyzer to invert the phase of the input signal. The same voltage comes

into the shaper of control pulses of this octave analyzer, which generates two sequences of pulses shifted relative to each other along a positive front of the meander. These IM-JQ sequences

pulses are used to control the integragka to the second input of the second integrator, its second input connected to the output of the quad, the first input of the second driver control pulses

Claims (2)

The control pulse generator, and the ratator of the octave-i analyzer, performed piecewise integration of the process at intervals that are multiples of -. The output voltages of the integrators h are squared by the quadrs And and are fed to the second integrators in octave analyzers P whose integration time is equal to the time base of the analysis T. Overwrite and. the zeroing of these integrators I is carried out by pulses of the formers of control pulses, the follow-up period of which is the same, is determined by the follow-up period of the pulses of the last counter of the counter and is equal to the time base of the at-T. Output pulses of control pulse drivers P forcing control pulse formers provide a belt shift of output pulses (control pulses of control pulses for a time equal to the period of the basic function of the i -th bit. This time offset compensates for the delay of the output voltage of the first 5-integrators -5 11. The output voltage of the integrators corresponds to the power spectral density of the corresponding octave analyzer. The proposed device can be used to measure a wide range random random signals, including non-stationary signals due to averaging the spectrum of the Walsh following frequency group: Formula 1. An octave analyzer for the spectrum in the Walsch basis, containing a function generator and octave analyzers connected to the first outputs, each of which is sequentially connected multiplier, integrator and quad, characterized in that, in order to improve the accuracy of the analysis, the first driver generator is additionally introduced into each of the octave analyzers. pulses, the input of which is connected with the input of the multiplication unit, and the output - with the second input of the integrator, and beginning with the second octave analyzer, an integrator and a second driver of control pulses, the output of which is connected to the second output of the first formating input, are added to each of them the second output of the function generator. 2. Device pop. 1, which differs from the fact that the function generator is designed as a binary counter. Sources of information taken into account in the examination: 1. USSR author's certificate No. 470754, cl. G 01 R 23/16 1975. 2.Bueeetin fev.59 (i968), 26,2t, i) ereniber, H.Haimuth UeopocascfioiienJ.