SU742843A1 - Multi-valued measure of radio pulse voltage - Google Patents

Description

one

The invention relates to the field of electrical measurements, in particular, to exemplary equipment for reproducing radio pulse voltage, which is widely used in measurement technology, and can also be used in radar, radio navigation, space and ground communications.

Multiple measures of radio pulse voltage are known, containing a high-frequency sinusoidal oscillator, a modulator, an attenuator, and a high-frequency voltmeter for a syn-donal signal (1.

The disadvantage of pointing to the devices is the low accuracy of reproduction of radio impulse voltage and the impossibility of obtaining a direct reference. The error of the known devices when playing a radio pulse voltage from W to -100 dB relative to 1V or 0.1V (i.e., from 1V to 10 μV or from 0.1V to 1 μV) is (10-20%) dependency; R1 on radio pulse voltage level, duration, frequency and carrier frequency.

The closest technical solution to the present invention is a device for reproducing a pulse pulse voltage, comprising a master oscillator of a high-frequency sinusoidal voltage, an amplifier module, an attenuator, a generator of inducing pulses, an electronic voltmeter of a high-frequency sinusoidal voltage. The output of the master oscillator high-frequency sinusoidal voltage is connected to one

10 to the input of the amplifier module, the output of which is connected to the input of the attenuator and to the input of an eletron voltmeter of a high-frequency sinusoidal waveform. tension The output of the oscillator of the control pulses is connected to the other input of the amplifier module 2j.

A disadvantage of the known device is the reproducibility of the reproduction of a radio pulse voltage.

The aim of the invention is to increase

20 accuracy of multi-valued measures of radio-pulse voltage.

The goal is achieved by the fact that a meaningful measure is radically | -o-stress. containing in series a control pulse generator, an amplifier modulator and an attenuator, as well as a high-frequency sinusoidal voltage master oscillator are equipped with a controlled voltage divider, program control unit, two asynchronous detectors, two amplifier integrators and a comparison unit, and the output master oscillator of high-frequency sinusoidal voltage is connected to one input of the controlled voltage divider, to the first and second inputs of the asynchronous detector pfrvgb to the second inlet of the second asynchronous detector, and its input is connected to one output of the control unit;) the other control is connected to one input of the attenuator; the output of the controlled voltage divider is connected to the same input of the amplifier — module; the output is connected to the first input of the asynchronous detector, one output of the control pulse generator is connected to the third inputs: both asynchronous detectors, the output of the first asynchronous detector is connected to the input of the first amplifier l-integrator a, and the output of the second asynchronous detector is connected to the input of the second integrator amplifier, the output of the first amplifier — an integrator — is connected to one input of the comparable unit, and the output of the second amplifier — the integrator g is connected to another input of the comparison unit whose output is connected to another input of the controlled divider voltage wives The drawing shows a block diagram of the device. The device contains a high-frequency sinusoidal voltage driving oscillator 1, a controlled voltage divider 2, an amplifier modulator 3, an attenuator 4, a software control unit 5, a first asynchronous detector 6, a control pulse generator 7, a second asynchronous detector 8, an integrator amplifier 9 , comparison unit 10, amplifier-integrator 11. The output of master oscillator 1 of high-frequency sinusoidal voltage is connected to one input of controlled voltage divider 2, to the first and second inputs of the first asynchronous child vector 6 and to the second input of the second asynchronous detector 8, and its input is connected to one output of the software control unit 5, the other output of which is connected to one input of the attenuator 4; the output of the controlled voltage divider 2 is connected to one input of the amplifier-module 3, the other input of which is connected to another output of the generator 7 of control pulses, the output of the amplifier-module 3 is connected to another input of the attenuator 4 and to the first input of the second asynonal detector 8; one output of the control pulse generator is connected to the third inputs of both ascchronical detectors 6 and 8 the output of the first asynchronous detector 6 is sub-connected to the input of the first amplifier integrated 9, and the output of the second asynchronous detector 8 is connected to the input of the second amplifier integrator I, the output of the first amplifier integrator 9 connected to one input of comparator unit 10, and the output of the second amplifier integrator 11 is connected to another input of comparator unit 10, the output of which is connected to another input of controlled voltage divider 2. The device works as follows. Set the required values of the frequency and level of the radio pulse voltage on the control panel of the software control unit 5. From one output / j of the software control unit 5, the control signal is fed to the input of the master oscillator 1 of a high-frequency sinusoidal voltage for which the required frequency value is set, and from its other output the control signal is fed to one input of the attenuator 4 for which the required value is set weakening. From the output of master oscillator 1 of high-frequency sinusoidal voltage, the signal goes to one input of controlled divider 2 voltage, to the first and second inputs of the first asynchronous detector 6 and to the second input of second asynchronous detector 8. From the output of controlled voltage divider 2 high-frequency sinusoidal arrives at one input of the amplifier-module 3, to the other input of which a modulating signal (video pulse) is fed from another output of the generator 7 control pulses. From the output of the amplifier module 3, a radio pulse signal whose carrier frequency is determined by the frequency of the signal of the master oscillator 1 of the high-frequency sinusoidal voltage, and the duration and frequency of the tracking are given by the parameters of the j-speaker signal 8 At the moment of the arrival of the control 1 MP, coming from one output of the generator 7 of control pulses, the asynchronous detection process in the asynchronous 1st detectors 6 and 8 occurs. 6th dimension detector. Signal and heterodyne signals are high-frequency sinusoidal signal arriving at the first (measured) and second (heterodyne) inputs. For the second asynchronous detector 8, the measured signal is a radio pulse signal, and the heterodyne signal is a high-frequency sinusoidal signal, which is fed to the first (measured) and second (heterodyne) inputs, respectively. From the output of the first asynchronous detector 6, the detected sample signal, taken from the measured signal during the control signal, is fed to the input of the First amplifier-integrator 9, and from the output of the second asynchronous detector - to the input of the second amplifier-integrator 11. From the output of the first the amplifier-integrator 9, the signal is fed to one input of the block 10 sravnegrash,

and from the output of the second amplifier integrator 11 to the other input of the unit 10 of comparison.

If the voltage of these signals is not equal, then from the output of the comparison unit 10 the difference signal is fed to another input of the controlled voltage divider 2 and, changing its division factor, sets the voltage of the radio pulse and high frequency sinusoidal signals equal, while the value of the radio pulse voltage the input of the attenuator 4 is automatically set equal to the voltage reproduced by the master oscillator 1 of the high-frequency sinusoidal voltage and kept constant during operation.

Thus, in this device, an increase in the accuracy of reproduction of the radio pulse voltage from 0 to -100 dB is achieved by the fact that the value of the reproduced radio pulse voltage is automatically set and maintained equal to the known value of the high-frequency sinusoidal voltage, by simultaneously comparing the amplitude voltage of the samples taken from both signals, and in combination with an attenuator and a software control unit, allows to get a direct reading.

Claims (2)

Claims. A multi-valued measure of the radial impulse voltage, containing a series-connected control pulse generator, an amplifier-modulator and an attenuator, as well as a master generator of a high-frequency sinusoidal voltage, characterized in that, in order to increase the accuracy of the voltage, it is equipped with a controllable voltage divider, a software control unit, two asynchronous detectors, two integrator amplifiers, and a comparison unit, with the output 0 of the master oscillator of a high-frequency sinusoidal voltage connected to the first input of the controlled divider for example, to the first and second inputs of the first asynchronous detector and to the second input of the second 5 of the asynchronous detector, and its input is connected to one 1 output of the program control unit, the other output of which is connected to the input of the attenuator; controllable voltage divider output is connected 0 to one input of the amplifier module, the output of which is connected to the first input of the second asynchronous detector, one output of the generator of control pulses is connected to the third inputs of the asynchronous P 1X detector, the output of the first asynchronous detector is connected to the input of the first amplifier integrator, and the output The second asynchronous detector is connected to the input of the second amplifier of the integrator, the output of the first amplifier of the integrator is connected to one input of the unit equal1, and the output of the second amplifier of the integrator is connected i Valid mu comparing unit. the output of which is connected to another input of the controlled voltage divider. j Sources of information taken into account during the examination 1. G. Telitschenko, N. Tsynap. Measuring generators. M., Mashinostroesh, 1974, p. 17-21. 2. Measuring generator GCh-44. Technical description.