RU2054807C1 - Device for jamming radars - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: device has receiving antenna 1, input gate 2, high- frequency amplifier 3, switch 4, branch circuit 5, band-pass filter 6, detector 7, video amplifier 8, control signal generator 9, gate 10, decoder 11, adder 12, output high-frequency amplifier 13, strobe pulse generator 14, transmitting antenna 15, unit 16 for measuring duration of cycle for search for radar detection, control and synchronization unit 17, channel gate. EFFECT: increased efficiency for suppression of detecting and tracing radars. 4 dwg

Description

 The invention relates to radio engineering and can be used for electronic suppression of radar detection and tracking of trajectories.

Known radio interference station with auto-tuning to the frequencies of the suppressed means, containing the transmit-receive antenna, the transmit-receive switch, the pulse generator of the UHF transceiver, the mixer of the receiver, the amplifier, the limiter, discriminator, audio cascades, frequency discriminator, modulator, local oscillator, high-frequency circuits, mixer transmitter, intermediate frequency generator, modulator and frequency modulator, which alternately turns on the receiver and transmitter, which determines the frequency of the radar signals vnika and automatically tunes the frequency of the transmitter to the frequency of the received signal [1]
A disadvantage of the known jamming station (SP) is the low channelity, since under conditions when there are several radars operating at different frequencies in the antenna pattern (BPS) of the SP, only one of them will be suppressed.

An electronic radio countermeasure system is also known, comprising a receiving antenna, a receiver, a filter, a continuous signal generator, a video signal detector, a pulse generator, a gating circuit, and a transmitting antenna that emits a continuous signal at the operating frequency of the radar, interrupted synchronously with each repetition period of the radar pulses received by the receiver [2]
A disadvantage of the known system of electronic radio countermeasures is its single-channel nature in terms of the number of targets served under conditions when there may be several of them in the DND.

The closest in technical essence to the proposed joint venture is a multi-channel automated device for creating interference to radar stations, containing a series-connected receiving antenna, an input switch, a high-frequency amplifier (UHF), a switch, an output high-frequency amplifier and a transmitting antenna, as well as a splitter, the input of which connected to the output of the high-frequency amplifier and the input of the switch, and N outputs connected to the corresponding inputs of the chains, each of which consists of a series a separately connected band-pass filter, detector, video amplifier (CCC), a control strobe driver, a key circuit switch, the second input of which is connected to the output of the corresponding band-pass filter, and the output is connected to the corresponding N inputs of the adder, the output of which is connected to the output of the switch and the first input of the output high-frequency amplifier, the second input of which is connected to the second output of the strobe pulse former, the first output of which is connected to the second input of the input switch [3]
A disadvantage of the known device is that it effectively interferes with an airborne radar (radar) operating at close frequencies (in the same frequency channel). In a situation when several radars are located in the BD JV and they operate at different frequencies (in different frequency channels), due to the increase in the width of the interference spectrum, the interference power density will decrease.

 For example, if the radiations of two radars in different frequency channels are simultaneously received, then the power density of the interference created by each of them will decrease by half, and therefore the suppression range will decrease by 1.4 times.

 The purpose of the invention is to increase the efficiency of a radar station for detecting and tracking trajectories.

= q² (1+V²) в условиях СШП и ШПП; на фиг.4 алгоритм определения параметров шумовых прерывистых помех (l число подавляемых БЛРС, m(l) номера частотных каналов, τ_п(l) длительность прерывистой помехи, Т_п(l) период следования прерывистой помехи).Figure 1 presents a structural electrical diagram of a jamming station; figure 2 is a structural diagram of a unit for measuring the duration of a review cycle of a radar station; figure 3 is a graph of the probability of the correct tracking of targets from the signal / noise ratio

= q ² (1 + V ² ) in the conditions of UWB and BFS; figure 4 algorithm for determining the parameters of intermittent noise interference (l the number of suppressed BLRS, m (l) the number of frequency channels, τ _p (l) the duration of the intermittent noise, T _p (l) the period of intermittent interference).

 A device for interfering with radar stations comprises a receiving antenna 1, an input key 2, a high frequency amplifier (UHF) 3, a switch 4, a splitter 5, a bandpass filter 6, a detector 7, a video amplifier 8, a driver 9 of the control signal, a key 10, a decoder 11, the adder 12, the output of the UHF 13, the strobe pulse generator 14, the transmitting antenna 15, the radar scan cycle duration measurement unit 16, the control and synchronization unit 17, the channel key 18, the radar scan cycle length measurement unit 16 contains a threshold element 19, a key 20, trigger 21 with p zdelnym running, a differentiating circuit 22, a diode limiter 23, monostable multivibrator 24, a trigger 25 with a controllable counting running, the meter 26 timeslots.

 A device for creating interference to radar stations works as follows.

 The signals received by the receiving antenna 1, through the input key 2 open in reconnaissance mode, amplified by the input UHF 3, in accordance with its carrier frequency, pass through the bandpass filter 6 together with the noise signal into one of the frequency channels where the detector 7 is detected, are amplified by a video amplifier and come to the generator 14 of the channel control signal and the block 16 measuring the duration of the radar scan cycle. In response to the incoming signal, the amplitude of which exceeds a certain threshold level of the driver U of the control signal U in this frequency channel, the key 10 is closed. In the block 16 for measuring the duration of the radar scan cycle, signals exceeding the threshold of the threshold element 19 are transmitted through the key 20 which is open in the initial state arrive at the first input of the trigger 21 with a separate start, overturn it.

 At the output of the differentiating circuit 22, a pointed pulse is generated, which is fed through the diode limiter 23 to the input of the standby multivibrator 24 and starts it. The pulse duration of the waiting multivibrator 24 is selected from the condition that the duration of the exposure of the onboard radar station interference in the review. The pulse from the output of the standby multivibrator 24 is supplied to the trigger 25 with a controlled counting start, to the second input of the key 20 and the second input of the trigger 21 with a separate start. Under the influence of a pulse from the output of the waiting multivibrator 24, the trigger 21 rolls over with a separate start to the initial state, the trigger 23 rolls over with a controlled counting start, and the key 20 stops transmitting radar pulses to the input of the radar scan cycle measuring unit 16 for the duration of the radar detection bottom and trajectory tracking continues to be aimed at the joint venture.

 In the next cycle of radar detection and tracking of trajectories, all the described work of the SP is repeated. In this case, the trigger 25 with a controlled counting start is repeatedly overturned. At its output, according to the results of two cycles of a radar survey of detection and tracking of trajectories, an impulse equal to the duration of the survey cycle of a given radar is taken. This pulse is fed to the input of the meter 26 time intervals of this channel.

 Information on the duration of the radar overview cycle for detecting and tracking trajectories in a given frequency channel in the form of a digital code is received from the output of the 26 time interval meter to the input of block 17 corresponding to the given frequency channel. Similar information is sent to the corresponding inputs of block 17 from other frequency channels.

 In block 17, based on the information received from the frequency channels, a solution is developed (one of the variants of the implemented algorithm in block 17 is shown in Fig. 4) about the numbers of the frequency channels by which interference will be set and the interference parameters (duration, period) in each of the suppressed frequency channels.

In accordance with this decision, the block 17 in the jamming mode will provide sequentially in time with a cycle equal to the repetition period of interference T _p , in the form of digital parallel codes, information on the numbers of frequency channels to the decoder 11. The decoder 11, recognizing the code combination, gives out the corresponding output control signal to the corresponding code combination of the channel key 18. The duration of each control signal is determined by the duration of the interfering signal for a given channel, determined by block 17.

 Thus, the channel key 18 of the corresponding channel will open for a time equal to the duration, and with a repetition period of interference in this frequency channel.

 The interference signal is generated by modulating the received radar signal with thermal noise, passing through the public keys 10, through which the signals are received, channel keys 18, which received the control signal from the decoder 11, the subsequent summation of the signals in the adder 12 and amplification in the output UHF 13.

 Intermittent noise from the output of the output UHF 13 is fed to the transmitting antenna 15 and is radiated in the direction of the suppressed radar detection and tracking of trajectories.

 Upon receipt of information on the operation of the radar unit 17 of detection and tracking of trajectories from several frequency channels, it, in accordance with its algorithm, determines the number of suppressed radars, the order of their suppression and the parameters of intermittent interference in the frequency channels.

Claims (2)

 1. DEVICE FOR CREATING INTERFERENCE TO RADAR STATIONS, containing a receiving antenna, an input key, a high-frequency amplifier (UHF), a switch, an UHF output and a transmitting antenna, as well as a splitter whose input is connected to the UHF output, and N outputs of the splitter are connected to the corresponding inputs of N channels, the outputs of which are connected to the inputs of the adder, and a strobe pulse generator, the first and second outputs of which are connected respectively to the control inputs of the input key and output UHF, to the output of the adder output is connected, wherein each channel contains a key and a series-connected bandpass filter, a detector, a video amplifier, a driver of a control signal, the output of which is connected to a control input of the key, the information input of which is connected to the output of the bandpass filter, characterized in that the unit is connected in series control and synchronization, which selects the frequency channel and the formation of noise parameters, and a decoder, and an output channel key and a measurement unit are introduced into each channel rhenium of the duration of the review cycle of a radar station, the input of which is connected to the second output of the video amplifier, and the output of the measurement unit of the duration of the review cycle of the radar is connected to the corresponding input of the control and synchronization unit, while the N outputs of the decoder are connected to the control inputs of the corresponding output channel keys, information the inputs of which are connected to the outputs of the corresponding keys.  2. The device according to claim 1, characterized in that the radar scan cycle duration measurement unit comprises a threshold element connected in series, the input of which is the input of the radar scan cycle duration measurement unit, a key, a separate trigger, a differentiator circuit, a diode limiter, a waiting multivibrator , a trigger with a controlled counting start and a time interval meter, the output of which is the output of the radar scan cycle duration measuring unit, while the output of the standby multivibrator is connected to the second input ohm trigger with separate launch and the second input key.

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