RU30214U1 - Frequency detection and reproducing device - Google Patents

Abstract

A device for determining and reproducing a frequency, comprising the first and second frequency converters and a local oscillator unit, characterized in that it further comprises a high-frequency input amplifier and a frequency-selective signal splitter connected in series, the output of which is connected to the second input of the first frequency converter, power divider, input which is connected to the output of the first frequency converter, the first output is connected to the masking synthesizer, and the second with a controlled delay line, the outputs of the controlled delay line and the masking noise synthesizer are connected to the inputs of the adder, the output of which is connected in series to the second frequency converter, a frequency-selective signal splitter and a high-frequency output amplifier, the second output of the masking noise synthesizer is connected to the input of the local oscillator unit, and the third output of the masking noise synthesizer connected to the blanking input of the controlled delay line, the control inputs of the masking synthesizer and the controlled delay line are connected terms to the output of the control device.

Description

... .. „. -. , "MPK7 HOIK 3/00, GOIS 7/38.

A device for determining and reproducing frequency.

The utility model relates to radio engineering and can be used in radio jamming stations.

Known automatic response jamming station, protected by the patent of the Russian Federation No. 2103705, MPK7 GO IS 7/38. This station contains a receiving antenna, a device for short-term reproduction of a carrier frequency, a microwave amplifier, and a device for generating response noise. The device for short-term reproduction of the carrier frequency in this station does not allow creating impulse noise.

A device for measuring two-signal characteristics of the frequency selectivity of a radio receiver for blocking and cross-distortion (see patent of the Russian Federation No. 2144265, MPK7 Н04В 17/00, publ. 2000) contains a series-connected low-frequency signal generator, controllable switch, amplitude modulator, signal input which is connected to the signal generator, and the output to the matching unit, the output of which is the input of the studied radio. The comparison unit is connected to the studied radio receiver and the reference signal shaper. A second controllable switch, an amplifier, a third controllable switch, an indication unit, a controllable generator, a second amplitude modulator, the input of which is connected to the first controllable switch, are connected in series. The controlled attenuator is connected to the second switch and an electronic key connected to the threshold element and the matching unit. The differentiation unit and the counting trigger are connected in series with each other, connected to the first, second, and third switches. The input of the frequency detector is the output of the intermediate-frequency amplifier of the studied radio receiver. The device provides a determination of the frequencies of the side channels of the reception, which is a technical result. Such a device cannot be used to generate noise interference.

A device is known for generating signals of operating frequencies of a transceiver of a radar station (see certificate of the Russian Federation for utility model JVbl7106, MPK7 NOZV 19/00, publ. 2001), containing a mixer, the output of which through a filter tuned to the central frequency of the probe signal fQ is connected

to the output of the device, the first input is connected to the signal source of the first local oscillator with a frequency of fpi, and the second input through a filter tuned to the first intermediate frequency fjjqi is connected to the output of the second mixer, the inputs of which are connected to the outputs of the signal source of the second local oscillator with a frequency and a generator whose frequency is equal to the second intermediate frequency fnij2 the signal source of the first local oscillator fpi is a frequency multiplier NI connected through a filter to the first mixer, the input of which is connected through the filter to the output of the mind ozhitelya frequency N2 multiplicity connected to the output of the input reference generator module comprising

a power adder, the output of which is connected to the output of the module, and the inputs are connected through controlled key devices to the outputs of generators stabilized by resonators on surface acoustic waves, the control inputs of the key devices connected to the outputs of the decoder, the digital signal of which is connected to the input of the device, the signal source of the second the local oscillator fr2 is a frequency multiplier N3, the output of which through a filter is connected to the input of the second

mix, and the input is connected to the output of a generator stabilized by a resonator on surface acoustic waves and tuned to the frequency subharmonic of the second local oscillator, and the signal source of the second intermediate frequency is a frequency divider whose output is connected to the input of the second mixer and the input is connected to the output of the generator, stabilized by a resonator on surface acoustic waves and

tuned to the subharmonic of the second intermediate frequency. This device is adopted as a prototype.

Common signs of the claimed device with the prototype are the presence of frequency converters (in the prototype these are mixers) and a local oscillator unit.

The disadvantage of the prototype is its structure does not allow to form a signal of combined interference.

The technical problem, the solution of which is aimed at creating a utility model, providing the possibility of generating a signal of combined interference.

The solution to this technical problem is achieved by the fact that the device for determining and reproducing the frequency, containing the first and second frequency converters and the local oscillator unit, further comprises a series-connected input high-frequency amplifier and a frequency-selective signal splitter, the output of which is connected to the second input of the first frequency converter, a divider power, the input of which is connected to the output of the first frequency converter, the first output is connected to the masking synthesizer, and the second - with a controlled delay line, the outputs of the controlled delay line and the masking noise synthesizer are connected to the inputs of the adder, to the output of which are connected a second frequency converter, a frequency-selective signal splitter and an output high-frequency amplifier, the second output of the masking noise synthesizer is connected to the input of the local oscillator unit , the third output of the masking noise synthesizer is connected to the blanking input of the controlled delay line, the control inputs of the masking noise synthesizer and An etched delay line is connected to the output of the control device.

The utility model is illustrated in the drawing. The numbers in the drawing indicate: 1 - input high-frequency amplifier, 2 - input frequency-selective splitter, 3 first frequency converter, 4 - power divider, 5 - controlled delay line, 6 - masking noise synthesizer, 7 - local oscillator unit, 8 - adder 9 - a second frequency converter, 10 - an output frequency-selective splitter, 11 - an output high-frequency amplifier, 12 - a control device.

The device for determining and reproducing the frequency contains a series-connected input amplifier 1 of a high frequency, an input frequency-selective splitter 2 of signals, a first frequency converter 3 and a power divider 4, the first output of which is connected to a masking synthesizer 6, and the second with a controlled delay line 5. Outputs the controlled delay line 5 and synthesizer 6 are connected to the inputs of the sz of the generator 8, the output of which is connected in series to the second frequency converter 9, the output frequency-select a splitter of signals 10 and an output amplifier 11 of a high frequency. The second output of the synthesizer 6 is connected to the input of the local oscillator unit 7, the output of which is connected to the second inputs of the first 3 and second 9 frequency converters. The third output of the synthesizer 6 is connected to the blanking input of the controlled delay line 5. The control inputs of the synthesizer 6 and the controlled delay line 5 are connected to the output of the control device 12.

The masking noise synthesizer 6 is a typical circuit of a narrow-band signal generated from a broadband generator of a noise signal, corresponding to a frequency determination range. The formation of the regimes of masking noise interference is carried out by modulation pulses from the device 12 with various time parameters. Possible interference modes are noise sighting without a pause, noise sighting with a pause, alternating sighting and barrage with a given duty cycle and repetition period, noise barrage with a pause with a set duration of pauses and duration of radiation cycles.

The formation of impulse noise is carried out using a discretely controlled delay line 5 on surface-acoustic waves (SAW) at an intermediate frequency by changing the time delay of the probe pulses of the radar signals, which provides interference with a safety spectrum of the radar signal. The formation of pulse interference modes is carried out by temporarily controlling the radar pulse delay value from device 12 and provides multiple false targets at various bearings and distances from the jamming provider.

The combination of frequency-selective splitters of signals 2 and 10, the first 3 and second 9 frequency converters and the local oscillator unit 7 is a matrix transceiver designed to receive and determine the frequencies of the input signals and reproduce interference.

The generated impulse noise signal from the output of the controlled delay line 5 and the masking (noise) noise signal from the output of the synthesizer 6 are summed up on the adder 8, transported to the high frequency range by the second converter 9 and the frequency-selective splitter 10, and amplified by the high-frequency output amplifier AND. The use of a controlled delay line 5 for generating pulsed interference signals made it possible to ensure the identity of the interference signal to the signal of the suppressed radar, summing the signals from the synthesizer 6 and the controlled delay line 5 ensures the formation of combined interference.

Claims (1)

A device for determining and reproducing a frequency, comprising the first and second frequency converters and a local oscillator unit, characterized in that it further comprises a high-frequency input amplifier and a frequency-selective signal splitter connected in series, the output of which is connected to the second input of the first frequency converter, power divider, input which is connected to the output of the first frequency converter, the first output is connected to the masking synthesizer, and the second with a controlled delay line, the outputs of the controlled delay line and the masking noise synthesizer are connected to the inputs of the adder, the output of which is connected in series to the second frequency converter, a frequency-selective signal splitter and a high-frequency output amplifier, the second output of the masking noise synthesizer is connected to the input of the local oscillator unit, and the third output of the masking noise synthesizer connected to the blanking input of the controlled delay line, the control inputs of the masking synthesizer and the controlled delay line are connected terms to the output of the control device.