RU1841331C - Automatic multi-channel device for determining and storing the frequency of radio signals - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention relates to radio measuring equipment and can be used for frequency control of intentional radio interference, as well as for determining the value of the carrier frequency of signals in radio intelligence equipment. Each of the channels of an automatic multichannel device for determining and storing the frequency of radio signals contains a series-connected bandpass filter of its sub-band, a mixer, an intermediate frequency amplifier (UPF) and a detector, as well as a source of heterodyne voltages connected by outputs to the second inputs of all mixers. A digital frequency meter and a digital frequency synthesizer are additionally introduced into the device.

EFFECT: increase in the accuracy of frequency determination while reducing the weight and dimensions of the device.

1 cl, 1 dwg

Description

The proposed device for determining and storing the carrier frequency refers to radio measuring equipment and can be used to control the frequency of intentional radio interference, as well as to determine the value of the carrier frequency of signals in the equipment of electronic intelligence.

Known devices for determining and storing frequency (see S.A. Vakin, L.I. Shustov, Fundamentals of radio countermeasures and electronic intelligence, "Soviet Radio", 1968, pp. 415÷419), based on automatic tuning of the oscillator frequency to the memorized frequency signal or at the reception of signals by a multi-channel frequency-selective system, at the output of each channel of which the generator, tuned to the middle of the frequency channel, is turned on depending on the presence of a signal in it.

Of the known devices for determining and storing frequency, the closest in technical essence is a multi-channel frequency-selective device, which consists of two (or more) frequency refinement steps.

Stage I serves to roughly determine the frequency, and stage II - to refine it. In order to reduce the weight and dimensions of the device, the second stage of refinement is common to all frequency channels of the first stage.

This is ensured by transferring the bandwidths of all frequency channels of the 1st stage to the region of the standard intermediate frequency band using heterodyning in each channel. At the output of the frequency channels of the second stage, depending on the presence of a signal in them, generators tuned to the average frequencies of their channels are turned on.

For the reverse transfer of oscillation frequencies from the region of intermediate frequencies to the region of the initial frequencies of the signals, there are output mixers according to the number of channels of the 1st stage, each of which is supplied with oscillations of its local oscillator and any generator of the 2nd stage through the switches.

The switching of oscillations of the II stage generators and the I stage local oscillators is controlled automatically by the received signal itself through the gain detection circuits, RAM elements present in each frequency-selective channel of both stages.

Although measures have been taken in the described system to significantly reduce the volume of equipment, its weight and dimensions, while increasing the accuracy of determining and storing the frequency, reach significant values, since this can be achieved by increasing the number of channels.

The aim of the present invention is to reduce the weight and dimensions of the device for determining and storing the frequency or, while maintaining them, to increase the accuracy.

This goal is achieved by the fact that some outputs of the intermediate frequency amplifiers of the multichannel frequency selective system are connected to the input of a digital frequency meter, the outputs of which, in turn, are connected to the input of a digital frequency synthesizer. Other outputs of the intermediate frequency amplifiers are directly connected to the input of the frequency synthesizer through the generators of the codes of their channel numbers.

The drawing (Fig. 1) shows a block diagram of a digital automatic device for determining and storing the carrier frequency of radio signals.

The digital automatic device contains band-pass filters 1 ₁ ÷ 1n, frequency mixers 2, a source of heterodyne voltages 3, intermediate frequency amplifiers 4, detectors 5 and code generators for its channel number 6 ₁ ÷ 6n.

The signal, depending on the carrier frequency, passes through the corresponding band-pass filter 1 ₁ ÷ 1n and arrives at one of the inputs of the mixer 2 ₁ ÷ 2 _n .

The second input of this mixer receives an oscillation from a heterodyne voltage source. Moreover, the frequencies of heterodyne oscillations supplied to different mixers are selected in such a way that the converted frequency bands at their outputs would be the same. At the outputs of the mixers, intermediate frequency amplifiers are included, which have two outputs each. Some outputs are connected together and connected to the input of the digital frequency meter 7, the outputs of which are connected to the inputs of the digital frequency synthesizer 8.

The other outputs of the amplifiers, after being detected by diodes 5, are fed to the inputs of the code generators for their channel number. From the outputs of the shapers, the codes are directly fed to the input of the frequency synthesizer, supplementing the bits of the code coming from the output of the digital frequency meter.

The use of a digital frequency meter instead of the refining frequency-selective system used in the prototype can significantly improve the accuracy of its operation and reduce weight and dimensions, since the frequency meter is based on counting pulses (or oscillation periods) per unit time and can be made on the basis of integrated circuits and semiconductor devices.

Claims (1)

An automatic multi-channel device for determining and storing the frequency of radio signals, each of the channels of which contains a band-pass filter of its subband connected in series, a mixer, an intermediate frequency amplifier (IFA) and a detector, as well as a source of heterodyne voltages connected by outputs to the second inputs of all mixers, characterized in that that, in order to increase the accuracy of determining the frequency, a digital frequency meter is additionally introduced into it, the inputs of which are connected to the additional outputs of all IFs, and a digital frequency synthesizer, some of the inputs of which are connected to the outputs of the digital frequency meter, and others through the code generators of the number of their channel - to the detector inputs of each channel.

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