SU658495A2 - Arrangement for measuring characteristics of random process overshoots - Google Patents

Description

one

The invention relates to radio measurements.

A device for measuring the characteristics of random processes is known, comprising blocks performing vector decomposition of memory block signals, storing the amplitudes and phases of the obtained vectors, respectively, blocks reading the received signal at specified points in time, blocks for converting signals into the required shape and analysis blocks.

The disadvantage is its complexity.

According to the main auth. No. 326521, a device comprising an input unit, a forming element, an uncorrelated sample driver, an interval-number converter, a digital discriminator, a threshold voltage source, a sample generator, a pulse frequency converter, a peak detector, two counters, a time selector and a delay element 2.

However, such a device does not measure volt-second emission characteristics.

The aim of the invention is to provide measurement of volt-second characteristics and emissions.

This is achieved by the fact that the proposed device for measuring the emission characteristics of random processes, contains an input unit, a shaping element, an uncorrelated sample generator, an interval-number converter, a digital discriminator, a threshold voltage source, a sampling generator, a pulse frequency converter, a peak detector , two counters, a time selector and a delay element, five switches are inserted, the first of which is connected between one of the outputs of the input block, the peak detector output and the first input is a pulse-to-pulse converter; a second switch is connected between the output of the threshold voltage source and the second input of the pulse frequency converter; a third switch is switched between the output of the number / time selector output

Claims (1)

5 and the first input of the digital discriminator, the fourth switch is connected between the output of the uncorrelated samples generator, the output of the delay element and the second input of the digital discriminator, and the fifth switch is connected between the first input of the digital discriminator, the output of the digital discriminator, and the input of the result counter. The structural scheme of the proposed device is shown in the drawing. The device contains an input unit 1, (a forming element 2, a shaper of uncorrelated samples, a converter 4 interval-number, a digital discriminator 5, a threshold voltage source 6, a surge number counter 7, a delay generator 8 samples, a delay element 9, a counter 10, the peak the detector 11, the frequency-pulse converter 12, the time selector 13, the switches 14-18. The measured signal is fed to the input 19. The device operates as follows, In the modes of measuring the density function of the distribution of emission durations (switch readers 14-18 in the upper position) the converter output 4 interval-number is connected to the main input of the digital discriminator 5, and the output of the imaging unit 3 uncorrelated samples to another input of the digital discriminator 5,.. Result counter 10 is connected to the output of the digital discriminator 5. Threshold threshold is established in the forming element 2 by adjusting the source of the threshold voltage 6 connected to it. When measuring the distribution function, the forming element 2 forms a rectangular impulse with the same duration. The pulses from the output of the shaping element 2 are fed to the input of the shaping body of the correlated samples 3, to the other input of which pulses are fed from the generator of samples 8 with the set frequency. As a result, a sequence of rectangular pulses is formed at the output of shaper 3, corresponding to uncorrelated emissions. A pulse of duration t is converted by the converter 4 interval-number into a series of pulses, the number of which is proportional to t. The fixed duration At, with which the duration of the emissions is compared, is given by the number a, set in digital discriminator 5, in which the numbers n and a are compared. If n, and, equivalent to the condition t ut, the output of the digital discriminator 5 is an impulse which is detected by the counter 10 results. When n and the pulse does not arrive at the counter 10, the ratio of the number of pulses m counted by the counter 10 of the result during the analysis T to the total number of outliers under the number 7 of the emissions counted by the counter gives an estimate of the value of the distribution function. The probability density of the emission durations is measured similarly, but in the digital discriminator 5 two thresholds are set and a pulse at its output appears under the condition of & t d1 dT, where dT is the width of the differential corridor. When translating switch 18 to the lower position, it is possible to measure the average duration of the ejection. Now consider the operation of the circuit in the mode of measuring the amplitude-time characteristics of the emissions (switches 14 ... 16 in the middle position, 18 in the upper position). The rectangular pulses appearing at the output of shaper 3, corresponding to uncorrelated spikes, are delayed by delay element 9 for a time longer than the maximum spike duration in the signal under study. The delayed pulses arrive at the control input of the temporary selector 13 and serve as gate signals. From the output of the input unit 1, the signal under study is also fed to the working input of the peak detector 11, which has been reset to this point by the impulse from the generator of 8 samples. In connection with the supply to the peak detector 11 of the voltage of the source of the reference voltage at the output of this detector, by the end of the surge, a voltage proportional to the amplitude of the surge is detected. This voltage is applied through the frequency-pulse converter 12 to the input of the time selector 13, as a result of which the output of the latter forms a burst of pulses. The number of pulses in each packet is proportional to the product of the ejection amplitude and its duration. The processing of these packs in the digital discriminator 5 and the result counter 10 allows, similarly to the described analysis of the density distribution function of the emission duration, to analyze the function and density of the distribution of the amplitude-time characteristic of the emissions, and at the lower position of the switch 18, the average value of the amplitude-time characteristic of the emissions. To measure the volt-second emission characteristics, the switches 14-17 must be placed in the bottom position. At the same time, the time selector 13 at each surge is fed from the uncorrelated samples generator 3 allowing the signal equal to the duration of this surge, and the input of the frequency-pulse converter 12 is the studied implementation from the output of the input unit 1 and the threshold voltage from the source of the threshold voltage 6. Since the output of the pulsed-pulse converter 12 is connected with the output of the time selector 13, at the output of the latter, a burst of pulses is formed at each output proportional to the voltage-second impulse response саsa. The processing of the pulse train in the digital discriminator 5 and the result counter 10 allows a count to be taken proportional to the function or density of the distribution of the volt-second characteristic of the emissions (switch 18 in the upper position) or the average value of this characteristic (switch 1 in the lower position). In all cases, the measurement result is determined by the ratio of the readings of the counters 10 and 7. Apparatus of the invention A device for measuring the emission characteristics of random processes according to the author. No. 326521, characterized in that, in order to measure the volt-second emission characteristics, five switches are inserted in it, the first of which is connected between one of the outputs of the input unit, the output of the peak detector and the first input of the frequency-pulse converter, the second switch is included between the output source of the threshold E1prudence and the second input of the pulse frequency converter, the third switch is connected between the output of the interval-number converter, the output of the time selector and the first input of the digital dial the fourth switch is connected between the output of the uncorrelated sample generator, the output of the delay element and the second digital discriminator input, and the fifth switch is connected between the first digital discriminator, the digital discriminator output, and the result counter input. Sources of information accepted during examination 1. Japanese Application No. 43-8274, class, 110 D 3, 09.02.68. 2-. Copyright certificate, № 326521, C. 01 R 23/16, 1973.