RU2660469C1 - Active hindrances station - Google Patents

Abstract

FIELD: radio engineering and communications.

SUBSTANCE: invention relates to the field of electronic warfare activity and is intended for use in electronic countermeasure systems, in particular, it can be used in equipment for EMI shielding of flying machines (FM). Specified result is achieved due to the specific performance of active interference station, as well as by coherent memorizing and creation of intentional aiming and noise active hindrances along range, speed and angular detection channels with instantaneous panoramic determination of carrier frequency, impulse duration of time parameters, arrangement of signals, its coherent memorizing and reproduction with the possibility of modulation for each parameter and adjustment to operating frequency of the received signal from radio electronic means, providing reradiation with the necessary energy potential, as well as creation of device design providing acceptance and transfer in a single-point arrangement – in a single container that allows it to be used in FM electronic countermeasure and to ensure ease of assembly, reliability, and reduction in weight and size characteristics.

EFFECT: creation of active hindrances station providing increase in efficiency of signals suppression having different types of modulation and time arrangements from frequency-tuned radio electronic means.

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Description

The invention relates to the field of electronic warfare and is intended for use in complexes of electronic suppression and can be used in equipment for electronic protection of aircraft.

In modern conditions, individual electronic warfare systems are widely used to protect aircraft from reconnaissance and destruction by high-precision enemy means.

Personal protection stations are equipped with aircraft for counteracting the accompanying enemy radar and guiding interference signals to them.

So, there is a known radio interference station with auto-tuning to the frequency of the suppressed means, containing a transmit-receive antenna, a transmit-receive switch, a pulse transceiver generator, UHF, a receiver mixer, an amplifier, a limiter, a discriminator, a modulator, a local oscillator, high-frequency circuits, a transmitter mixer, an intermediate generator frequency, modulator, frequency modulator, which alternately turns on the receiver and transmitter, which allows using the receiver to determine the frequency of the enemy station signals and provides Automatic tuning of the transmitter frequency to the frequency of the received signal (US Patent No. 3431496 dated 05/27/1966).

In the known jamming station there are no means to assess the degree of correspondence of the parameters of the suppressed signal and the generated interference, the ability to identify a priority target, there is no frequency determination system, and the design of this device does not allow its use in small-sized equipment, designed for various types of signals and used for radio engineering protect the aircraft.

Also known is an electronic radio countermeasures system comprising a receiving antenna, a receiver, a filter, a continuous signal generator, a video signal detector, a pulse generator, a gating circuit, 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 (U.S. Patent No. 4,307,400 of 12/22/81).

The disadvantages of the known electronic radio countermeasures system are the lack of means for determining the parameters of the received signal and adaptive to the incoming signal, the generated interference signal, as well as the design of this device does not allow its use in small-sized transmitting and receiving equipment of the aircraft radioelectric protection.

An active jamming station is also known, comprising a receiving antenna coupled in series, a first signal splitter, a frequency storage circuit, as well as a pre-amplifier with a control input, a terminal amplifier and a transmit antenna connected in series, and a modulator whose output is connected to a control input of the pre-amplifier, and reconnaissance receiver, the output of which is connected to the input of the modulator, characterized in that it is additionally introduced: series-connected attenuator with control vlyayuschim input, the input of which is connected to the output of the frequency memory circuit and a second signal splitter, the direct output of which is connected to the preamplifier input; differential amplifier, the output of which is connected to the control input of the attenuator; a second peak detector, the output of which is connected to the inverting input of the differential amplifier; a second amplitude detector, the input and output of which are connected respectively to the branch output of the second signal splitter and the input of the second peak detector; a first peak detector, the output of which is connected to a non-inverting input of the differential amplifier; the first amplitude detector, the input and output of which are connected respectively to the branch output of the first signal splitter and the input of the first peak detector (Patent for invention RU No. 2446414 from 10/18/2010).

In the known jamming station there are no means to assess the degree of correspondence of the parameters of the suppressed signal and the generated noise, there is no frequency determination system, and the design of this device does not allow the use of small-sized transceiver equipment of radio-technical protection of aircraft.

The closest in technical essence and the achieved result is an ultra-fast local oscillator of electronic countermeasures designed to lower the radio frequency of the signal, convert it to digital form and write to a magnetic memory (memory) with arbitrary sampling, at the same time several radar signals can be written and read to this memory with any type of frequency and phase modulation, including a receiving antenna connected to a preamplifier an outlet, the output of which is connected in series through the splitter with the inputs of the detector and the common mixer, the output of which is connected in series with the inputs of two parallel mixers, the two outputs of which are connected respectively to the inputs of the analog-to-digital converters, the outputs of which are in turn, they are connected in series with the inputs of parallel random-access high-speed magnetic memory, the outputs of which are connected in series with the inputs in parallel They are connected by digital-analog converters, the outputs of which are connected in series with the inputs of the mixers located parallel to each other, the outputs of the mixers are connected to the input of a common mixer, the output of which is connected in series with the input of the power amplifier and then with the transmitting antenna, in addition, the input of the first mixer is connected in series with the output of the splitter, the input of which is connected in series with the output of the reference 1 GHz generator, the output of which is connected in series with the input of the second splitter, the output of which is connected in series with the input of the isolation circuit, the output of which is connected to the input of the second mixer, and the output of the first splitter is connected in series with the input of the isolation circuit, the output of which is connected to the input of the first mixer, the output from the isolation circuit is connected to the inputs of the mixers and the isolation line is connected to the reference block generators of the first local oscillator, which is designed to form the frequencies of the first local oscillator. In the considered device for lowering and restoring the radio frequency, two local oscillators are used. The first reduces the radio frequency of the signals to 0.75-1.25 GHz (boundaries corresponding to a given signal bandwidth). The frequency of the second local oscillator is 1 GHz. The signal removed from its detector by a band of ± 250 MHz is fed to an analog-to-digital converter, and then it is recorded by a magnetic memory.

In FIG. 1 shows a functional diagram of a prototype.

The composition of the functional diagram of the prototype in accordance with FIG. 1 includes the following devices:

1 - receiving antenna;

2 - pre-amplifier receiver;

3 - detector;

4 - general mixer;

4 ¹ , 4 ¹¹ - mixers;

5, 5 ¹ - analog-to-digital converters;

6, 6 ¹ - high-speed magnetic memory with random access;

7, 7 ¹ - digital-to-analog converters;

8 - programming device;

9, 9 ¹ - splitters;

10, 10 ¹ , 10 ¹¹ - decoupling schemes;

11 - reference generator 1 GHz;

12 - block reference generators of the first local oscillator;

13 - power amplifier;

14 - transmitting antenna.

The permissible spectrum width of the recorded signal (and, consequently, the step of the analog-to-digital conversion) is determined by the speed of digital elements.

The indicated device is characterized by the simplicity of inputting a false Doppler frequency shift signal into a memory readout. For this purpose, controlled high-speed digital frequency synthesizers are included in the loop of his local oscillator, among which are samples of the centimeter wave range with a resolution of units of hertz, suppressing the true radar frequency of the radar by 60-70 dB and changing it by any law within hundreds of kilohertz (Athens V “Evolution of EW Aircraft Means and Their Use in Armed Conflicts” - Foreign Military Review, No. 3, 1998).

The disadvantages of the prototype are that the interference is generated by filtering the incoming signal, analyzing it in the unit using various reference oscillators of the first local oscillator and comparing the signal values with the errors in the device’s memory, which violates the coherence of the response signal, there is no panoramic frequency determination system, as well as the design of the specified device is based on outdated technological solutions and does not allow its use in small-sized transmitting equipment for radio technical protection of aircraft.

An object of the invention is the creation of an active jamming station, which provides an increase in the efficiency of suppressing signals having various types of modulation and timing, from electronic means with frequency tuning by coherent memory and the creation of deliberate aiming and noise active jamming in range, speed and angular detection channels with instant panoramic determination of the carrier frequency, pulse duration of the time parameters, the arrangement of signals, its coherent memory knowledge and reproduction with the possibility of modulation for each parameter and tuning to the operating frequency of the received signal from electronic means, providing re-emission with the necessary energy potential, as well as creating the design of this device that provides transmission and reception in a single-point location - in a single container that allows you to use it in equipment for electronic protection of aircraft and to ensure ease of assembly, reliability, reduction of overall dimensions.

The specified technical problem of the invention is solved in such a way that the active jamming station includes: a front hemisphere receiving antenna - PPS, a rear hemisphere receiving antenna - ZPS, two low-noise amplifiers, an input switching matrix, two buck converters, two local oscillator frequency synthesizers, two mixers, two programmable control devices, two analog-to-digital converters, two high-speed random access memory, two 1 GHz frequency synthesizers, two digital-to-analog converters, two modulators, two converters, an output switching matrix, two power amplifiers, a transmitting PPS antenna and a transmitting PPS antenna, two blocks for determining the frequency of the input signal, a communication and control device, while the output of the PPS or PPS antenna is connected in series with the inputs of parallel low-noise amplifiers, the outputs of which are in series connected to the inputs of the input switching matrix, two outputs of the signal PPS or ZPS located in parallel, connected in series with the inputs of two parallel converters, the outputs of which are connected in series with the inputs of two parallel-mounted mixers, the outputs of which are connected in series with the inputs of two parallel, high-speed random access memory, the outputs of which are connected in series with the inputs of two parallel digital-to-analog converters, the outputs of which connected in series with the inputs of two boosting parallel converters, the outputs of which are connected in series with the inputs of the output switching matrix, two outputs which are connected to the inputs of two parallel amplifiers of power, the outputs of which are connected to the inputs of parallel transmitting antennas - PPS or ZPS, in addition, the outputs from the signal lines of the PPS and ZPS are connected to the inputs of two parallel parallel blocks of determining the frequency of the input signal , the inputs of the buck converters are connected in series with the outputs of the local oscillator frequency synthesizers, the inputs of two mixers are connected with the outputs of two parallel synthesizers of the frequency of 1 GHz, the output which, respectively, are connected in series with the inputs of two modulators, and the inputs of the local oscillator frequency synthesizers are connected in series with the inputs of two parallel, step-up converters, the outputs of the input signal frequency determination blocks located in parallel are connected to the inputs of programmable, parallel, control devices the outputs of which are in turn connected to the inputs of the local oscillator frequency synthesizers, in turn, the output of the communication and control device connected in series with two programmable control devices located in parallel, and the communication and control device interacts with avionics.

In addition, an active jamming station can be constructed in a block-modular design, and each block of a jamming station consists of separate modules, and includes: receiving antennas - PPS and ZPS, two blocks of antenna devices, a block for measuring the frequency of the received signal, two a block of microwave switches, two blocks - power amplifiers, a signal conditioning block, a control and state control unit, and the outputs of each antenna unit - PPS and ZPS are connected in series with the inputs of the instantaneous frequency measurement unit signal, the output of which is connected in series with the block for converting the supply voltage and microwave switching, the output of which is connected in series with the input of analysis and signal generation, and the output of the block for generating microwave signals is connected in series with the input of the voltage conversion and microwave modulation unit, and the supply bus is combined - a unit for instantaneous measurement of the frequency of the received signal, a unit for converting the voltage of the supply and microwave switching, a unit for analyzing and generating signals, and a control unit for state monitoring with round-robin connections that are connected to each other and to antenna units - PPS and ZPS with microwave switches - for PPS and ZPS and with blocks of output power amplifiers - for PPS and ZPS, in turn, the outputs of the power voltage conversion unit and Microwave switching is connected to the inputs of the power amplifier blocks, the outputs of the power amplifier blocks are connected to the inputs of the microwave switches, the outputs of which are connected to the inputs of the antenna devices for PPS and ZPS, and the outputs from the microwave switches are connected to the inputs of the antenna blocks.

In addition, the active jamming station is implemented in a single-point, single-container version, coordinated with the aerodynamic characteristics of the aircraft and placed on one suspension unit under the aircraft wing, has an autonomous cooling system and geometric characteristics that minimize shading of the aircraft body, while the container eliminates the possibility of module damage, included in the design of the station active interference, has increased reliability, and, by virtue of its unification, can be used for aircraft individual producers.

The essence of the invention is illustrated by drawings, which show:

in FIG. 2 presents a functional diagram of the inventive station of active interference.

In FIG. 3 is a structural diagram of a block-modular design of an active jamming station.

The inventive active jamming station is intended for individual and individually-mutual protection of the MiG series aircraft and, due to its modularity and uniformity, functional and design features, can be used for aircraft of other manufacturers by creating intentional, spectrum-coordinated (coherent) active jamming by electronic means enemy with any kind of signals.

The structure of the functional diagram of the inventive active interference station in accordance with FIG. 2 includes the following devices:

1 - receiving antenna PPP;

2 - receiving antenna ZPS;

3, 3 ¹ - low noise amplifiers;

4 - input switching matrix;

5, 5 ¹ - down converters;

6, 6 ¹ — local oscillator frequency synthesizers;

7, 7 ¹ - mixers;

8, 8 ¹ - programmable control device;

9, 9 ¹ - analog-to-digital converters;

10, 10 ¹ - high-speed memory with random access;

11, 11 ¹ , 11 ¹¹ - 1 GHz frequency synthesizers;

12, 12 ¹ - digital-to-analog converters;

13, 13 ¹ - modulators;

14, 14 ¹ - boost converters;

15 - output switching matrix;

16, 16 ¹ - power amplifiers;

17 - transmitting antenna ZPS;

18 - transmitting antenna PPP;

19, 19 ¹ - unit for determining the frequency of the input signal;

20 - communication and control device.

In this case, the antenna output PPS (1) or PPS (2) located in parallel are connected in series with the inputs of a low-noise amplifier (3, 3 ¹ ), the outputs of which are connected in series with the input of the input switching matrix (4), two signal outputs of the input switching matrix are connected sequentially with two entrances, arranged in parallel, reducing the converter (5, 5 ^1), the outputs of which are connected in series to the inputs of two parallel, mixers (7, 7 ^1), the outputs of which are connected in series with the inputs in parallel location with ennyh, converters "analog-to-digital" (9, 9 ^1), the outputs of which are connected in series to the inputs of two parallel, high-speed memory with random access (10, 10 ¹⁾ whose outputs are sequentially connected to inputs of two parallel, converters “Analog-digital” (12, 12 ¹ ), the outputs of which are connected in series with the inputs of two modulators located in parallel (13, 13 ¹ ), the outputs of which are connected with the inputs, located in parallel, boost converters (14, 14 ¹ ), the outputs of which connected after are properly connected to the inputs of the output switching matrix (15), two outputs of which are connected to the inputs of two parallel-mounted power amplifiers (16, 16 ¹ ), the outputs of which are connected to the inputs of the transmitting antennas (16) (PPS) or 17 (PPS), located in parallel, in addition, the outputs from the signal input lines (PPS and ZPS) are connected to the inputs of two parallel-located blocks for determining the frequency of the input signal (19, 19 ¹ ), and the inputs of the down-converters located in parallel, converters (5, 5 ¹ ) connected to the outputs of two parallel but synthesizer frequency oscillator (6, 6 ^1), the inputs of the two mixers (7, 7 ¹⁾ are connected in series to the outputs of the two frequency synthesizers 1 GHz (11, 11 ¹⁾ whose outputs are respectively connected in series with the inputs of the two modulators (13, 13, ¹ ), and the inputs of the local oscillator frequency synthesizers (6, 6 ¹ ) are connected in series with the inputs of two boost converters (14, 14 ¹ ), the outputs of the input signal frequency determining units (19, 19 ¹ ) are connected in series with the inputs of the programmable device control (8, 8 ^1), the outputs of which in howl turn connected in series with the input frequency synthesizer local oscillator (6, 6 ¹⁾ in turn output communications devices and controls (20) connected in series with two spaced parallel programmable control devices (8, 8 ¹⁾ and the communication device and control (8, 8 ¹ ) interact with the aircraft side.

The inventive station active interference operates as follows. Radar signals are received by the receiving antennas of the front hemisphere (PPS) or the rear hemisphere (ZPS), the frequency of each signal determines the carrier, and the bandwidth is the parameters of the information pulse sequence, then from the output of the antennas (1 or 2) the signal is fed sequentially to the input of a low-noise amplifier - to reduce signal noise and increase the sensitivity of the converter with a gain of at least 25-35 dB and a noise figure of not more than 1.0 dB. Next, the signal is fed to the input of a two-channel switching signal, matrix (3), where the signals (PPS or ZPS) are fed to any free channel and can be switched in any sequence, then each signal from the output of the input switching matrix is sequentially fed to the input of a step-down converter (5 or 5 ¹ ) - the local oscillator, which serves to convert the microwave frequency to a lower frequency, called the intermediate frequency in order to transmit the signal with the least loss. From the output of the buck converter (5 or 5 ¹ ), the signal (PPS or ZPS) is supplied sequentially to the input of the mixer (7, 7 ¹ ) and then from the output of the mixer (7, 7 ¹ ) to the input of the analog-to-digital converter (ADC) (9 and 9 ¹ ), in which the conversion of the analog signal into a discrete code - a digital signal. Next, the digital signal from the ADC output is transmitted to the input of a high-speed random access memory (10, 10 ¹ ), where the digital radio frequency memory technology of the signal is used, its storage and processing, the specified device is equipped with a delay line in which the input signal is delayed during the formation of the position code , its frequency is remembered, reproduces copies of the input signals, thanks to the use of digital radio-frequency memory technology, the frequency conversion of the input high-frequency signal is provided, at yatogo from radar, its filtering, digitization, storage and processing, then the signal sent from the memory output to the input of inverter "figure-analog" (12, 12 ^1), the output of which is fed to a modulator input (13, 13 ¹⁾ in which is endowed with appropriate interference modulation. The interfering signal thus formed is fed to the input of the boost converter (14, 14 ¹ ), from the output of which to the output switching matrix (15), from the output of the output switching matrix (15), the signal is amplified through one of the free channels in the amplifier (16, 16 ¹ ), arriving at its input and then the amplified signal from the output of the amplifier enters the transmitting antenna (17, 17 ¹ ), and is radiated to it in the direction of the suppressed radar.

On the device for determining the frequency of the signal (19, 19 ¹ ), a signal code (its digital characteristic) is generated. From the outputs of the units for determining the frequency of the input signal (PPS or ZPS signal) (19, 19 ¹ ), the signal code is fed to the input of programmable control devices (8, 8 ¹ ), which also receives the signal from the communication and control device (20), which controls the operation active jamming stations. And then from the outputs of the programmable control devices (8, 8 ¹ ) the signal code is fed to the input of the local oscillator frequency synthesizers (6, 6 ¹ ), and also from the outputs of the programmable control devices the signal is fed to the inputs of the analog-to-digital converter (9, 9 ¹ ), from the output of the synthesizers of the frequency of 1 GHz (11, 11 ¹ ), the code signal is supplied to the inputs of the mixers (7, 7 ¹ ) and the inputs of the modulators (13, 13 ¹ ), and from the outputs of the synthesizers of the frequency of the local oscillator (6, 6 ¹ ), the signal code arrives at the inputs of boost converters (14, 14 ¹ ).

The radio interference station control processors are designed to control the composite devices that make up the radio interference station and can represent a device that controls the station and operates according to strict algorithms.

Antennas (PPS or ZPS) are used to receive in a given sector in the azimuth and elevation angle of the microwave signals of the radio electronic equipment, irradiating the object.

A low-noise amplifier is necessary for pre-amplification of the input microwave signals of the station.

Switching matrices select between PPS and ZPS antennas for signal emission.

Signal conversion devices, including: step-down and step-up converter, local oscillator frequency synthesizer, mixer, analog-to-digital converter, high-speed random access memory, 1 GHz frequency synthesizer, digital-to-analog converter, modulator, step-up converter search for signals by frequency from enemy radio electronic equipment that irradiate the station and determine the frequency of the received signal, delay the input microwave signal for the duration of the synthesizer control code generation and configure the digital radio channel random frequency memory for its frequency, the formation of a control code channel digital radio frequency memory for tuning to the frequency of the input microwave signal; the distribution of the input microwave signals coming from the receiving antennas PPS and ZPS on the inputs of the receiving and transmitting analysis devices and generating signals based on digital radio frequency memory, records a digital signal and repeatedly reproduces exact copies of the signals irradiating the aircraft from the radio electronic equipment, special signals are generated no less than four suppressed radar means with continuous, quasi-continuous, pulsed and long-pulse radiation.

The communication and control device is designed to: turn on the station; control the operation of devices of the station of active interference, distribution and supply of supply voltages to the devices; power protection devices; for communication of the station with on-board electronic equipment and the power supply system of the facility, the development of a work program of the station.

Active jamming station provides an instantaneous frequency bandwidth of not more than 500 MHz and includes analog-to-digital converters (ADC), digital-to-analog converters (DAC), arithmetic logic devices (ALU), and interfaces.

The main conditions for undistorted reconstruction of the stored signal are the high stability of the local oscillator and the use of the recording clock frequency of at least the value of the instantaneous frequency band of the recorded signal.

Since the radar operates at a given specific frequency, and the pulse emitted by it is not detected by the jammer of the target, it carries useful information about the target, and the interference does not affect the functioning of the aircraft.

The inventive active jamming station differs from analogs and prototypes by the use of a fundamentally new system for receiving, processing, transmitting a microwave signal and generating noise.

In the analogs and prototype, after detecting a radiation signal from a radar, its frequency is stored in frequency memory devices by passing a series of filters, and then these values are compared with the stored ones and an interference signal is generated at a certain frequency.

In this case, the pulse source of individual protection of the target, having detected the arrival of the RES pulse, emits interference at a certain frequency, aimed at disrupting the functioning (disruption of tracking) of the radiation source.

In the inventive station of active interference, in order to increase the efficiency of suppressing signals from electronic devices with frequency adjustment by creating intentional active active interference in range, speed and angular coordinates with instant determination of the carrier frequency, its tuning to the frequency of the enemy’s electronic equipment, a digital radio frequency memory generation system is used , which provides the storage of frequencies, analysis of enemy RES signals, their digital formation and instantaneous the three carrier frequencies to their frequency, and then - reproduction of exact copies of the signals irradiating the aircraft from the radio electronic equipment, selecting the optimal type of reproducible signals, generating based on them simulation and noise special signals with at least four suppressed electronic radio signals, performing built-in control and distribution of the reproducing signal copies at the inputs of output amplifiers and radiated antennas. This leads to an increase in the efficiency of signal suppression by an active interference station.

Another of the most important objectives of the invention is the development of a compact design of the active jamming station, which allows its use in the radioelectronic protection equipment of an aircraft, providing the possibility of its modernization and adaptation for aircraft of various manufacturers, the possibility of arranging the jamming station modules in one container and mounting the container on the aircraft body.

In all known sources of information - the prototype and analogues discussed above, rigidly arranged structures of jamming stations are described, the architecture of which cannot be changed in such a way as to place it in one case and fix it on the aircraft case.

This problem can be solved by creating an active jamming station with a modular design, the functional features of the signal transmission of which are stored with the initial description and, in accordance with the diagram in FIG. 2.

By creating a block-modular design, you can get a number of important advantages:

- it is possible to create an architecture with the required number of modules placed in accordance with the structure of their interaction;

- it is possible to simultaneously control the operating parameters of modules and devices in the same unit;

- modules can be installed individually, thereby simplifying the architecture of the proposed unit;

- the modules can be individually controlled, individually diagnosed and, possibly, disconnected in the event of a malfunction, without adversely affecting the operation of the remaining modules and the entire unit as a whole, as well as the entire jamming station.

Depending on the tasks assigned to the active jamming station, they have different construction schemes, but in all active jamming stations, it is possible to distinguish the blocks that are basic in its construction.

So, there is a well-known container station of active interference of individual protection SAP 518, designed to protect the Su-34MK aircraft from damage by modern and promising surface-to-air and air-to-air missiles, which operates in the 5-18 GHz band and is located in two hanging containers that are installed at the ends of the wings of the aircraft, while in one container there is a receiver that serves to determine the frequency of the emitting signal, in the second - the transmitter - to generate a response interference signal. (Anatoly Sokolov - based on materials from ONTI TsAGI, No. 44-2014 of the Rosinformburo, News: Army 2017 Special Project "Voentorg" "Aircraft Station SAP 518: Superiority Recognized in the USA").

The container jamming station MP-411E is also known, which is designed to create active misinforming interference to weapon control radars in order to protect the tactical group of surface ships by complicating the classification and reducing the probability of choosing the main target in their composition, as well as for individual protection of surface ships, auxiliary vessels and imitations of ships in bases and at anchor stations, located in two containers (website: KRET.com)

In these information sources, active jam stations having a block-modular structure are placed in two or more containers.

In accordance with the structural diagram (Fig. 3), the block-modular design of the active jamming station consists of the following devices and blocks having a modular structure:

1 - receiving (PPP) antenna;

1 ¹ - receiving (RPS) antenna;

2 - antenna unit (PPP) of the station;

2 ¹ - antenna unit (ZPS) station;

3 - block instant measurement of the frequency of the received signal;

4 - block voltage conversion and microwave modulation;

5 - block the formation of microwave signals;

6 - control unit and state control;

7 - block microwave switching;

8 - power amplification unit (PPP);

9 - power amplification unit (ZPS);

10, 10 ¹ - supply busbars.

Moreover, each block of the jamming station consists of separate modules and includes receiving antenna (PPS and ZPS), two blocks of antenna devices, a block for measuring the frequency of a received signal, two blocks of a microwave switch, two blocks of a power amplifier, a signal conditioning block, a control unit, and state monitoring, and the outputs of each antenna unit (PPS and ZPS) are connected in series with the inputs of the unit for instantaneous measurement of the frequency of the received signal, the output of which is connected in series with the power voltage conversion unit and the microwave comm nations, the output of which is connected in series with the input of the signal generation analysis, and the supply bus is combined - an instantaneous measurement unit for the purity of the received signal, a unit for converting the supply and microwave voltage voltages, a signal analysis and generation unit, and a control and monitoring unit for round-trip communications which are connected to each other and to antenna units (PPS and ZPS) with microwave switches (for PPS and ZPS) and with blocks of output power amplifiers (for PPS and ZPS), in turn, the outputs of the conversion unit are Power and microwave switching are connected to the inputs of the power amplifier blocks, the outputs of the power amplifier blocks are connected to the inputs of the microwave switches, the outputs of which are connected to the inputs of the antenna devices (for PPS and ZPS), and the outputs from the microwave switches are connected to the inputs of the antenna blocks .

Each of the blocks of the station active interference performs its function.

Block of instant measurement of frequency of the received signal (3)

created for:

- quick determination of the frequency of pulsed input microwave signals using frequency-selective branching, followed by detection and generation of information about the frequency of the input signal in the form of a code number of the frequency channel in the strip of which the input signal is detected;

- delays of the input microwave signal during the formation of the synthesizer control code in the signal analysis and generation unit;

- switching delayed or non-delayed (in relay mode) input signals coming from the receiving antennas of the PPS and ZPS to two microwave outputs of the block, respectively.

The signal analysis and shaping unit (5) is intended for:

- digital recording and playback of copies of the signals of the irradiating LA RES UO;

- analysis of signals and recognition of types of detected signals;

- selection of the optimal type of reproducible signals depending on the stage of work and the type of RES of the UO irradiating the object;

- the formation on the basis of reproducible copies of imitation and noise interference;

- control the operation of blocks and units of the product;

- digital processing of signals from units and devices of the product, as well as signals from other products coming through communication interfaces with avionics.

The unit for converting supply voltages and high-frequency switching (4) is intended for:

- loading the flight mission and reading the results of the product;

- records, with reference to time, of information on the state of operation of the devices of the product, on the parameters of the input microwave signals, as well as the response of the digital radio frequency memory to the input influences;

- distribution of reproduced copies of the signals at the inputs of 2 output amplifiers;

- the formation of secondary supply voltages.

Antenna blocks PPS (2) and ZPS (2 ¹ ) are intended for:

- reception in the sector in azimuth of ± 45 degrees and elevation ± 30 degrees of the microwave signals of the radio electronic equipment irradiating the object;

- pre-amplification of input microwave signals;

- radiation of the output microwave signals of the product formed by the block analysis and formation of signals and amplified by the blocks of the output amplifier.

The control and condition control unit (6) is intended for:

- product inclusion;

- distribution and supply of supply voltage to the blocks;

- protection of units on power circuits against short circuit;

- indication of serviceability of fusible inserts;

- communication of the product with on-board electronic equipment and the power supply system of the facility, as well as for communication with the pilot's control panel.

The block of the output power amplifier PPS - (8) and the block of the output power amplifier ZPS (9) (output amplifiers) are designed to amplify the emitted signal.

Switches Microwave switches (7 and 7 ¹ ) are designed for:

- switching output microwave signals with a high power level to the antenna unit (2) (PPS), or antenna to the block (2 ¹ ) (ZPS).

The active interference station is switched on and off by applying a signal to the control and status control unit from the combined control panel located in the cockpit.

After the arrival of the enable signal, the unit distributes the primary voltages between the blocks and devices of the active interference station.

The operation modes of the product are controlled by sending commands from the multifunctional indicator located in the cockpit to the one-time module of the power voltage conversion and microwave switching unit (4) in transit through the control and status monitoring unit (6).

The active jamming station in the block-modular design works as follows: the probing signals of the radio electronic equipment are received by the receiving antennas of the blocks (2) (PPS) and (2 ¹ ) (PPS) and, after amplification, are fed to the input corresponding to a particular hemisphere (to the first or second) block instant measurement of the frequency of the received signal (3). In this block, the positional code of the frequency channel number in the band of which the signal is detected is generated. Next, the position code of the frequency channel number is transmitted to the signal analysis and generation unit (5) for tuning the digital radio frequency memory device to the frequency of the received signal. During the formation of the position code, the input RF signal is delayed by the delay line of the block (3) for instantaneous measurement of the frequency of the received signal and then goes to the RF input of the power voltage conversion and microwave switching unit (4), in which it is addressed to the RF input of the corresponding channel of the block analysis and signal generation (5). The parameters of the product input signal measured by this unit are evaluated according to the degree of danger and ranked according to the order of service. The priority of servicing the most dangerous signals is taken into account by the unit when generating the response signals of the radio electronic equipment irradiating the object. The signal analysis and signal generation unit (5) writes to the memory copies and parameters of the input signals, updating them systematically. The signal analysis and signal generation unit (5) reproduces copies of the input signals, endowing them with various types of modulation, choosing them in accordance with the flight task embedded in the cartridge of the power voltage conversion and microwave switching unit (4). The signals generated by the signal analysis and generation unit (5) are fed to the input of the power voltage conversion and microwave switching unit (4), where they are switched depending on the selected program of work and the frequency range and fed to the inputs of the corresponding output power amplifiers (block 8) and the block (9). Depending on the direction of arrival (PPS or ZPS) of the input signals, the signals amplified by the output amplifiers through the waveguide switches (7) are transmitted to the transmitting antennas of the blocks (PPS) or (ZPS), which radiate them in the direction of the RES of the UO.

As a result of the station’s active interference, the enemy creates the illusion that there are many targets in the air. This is due to the fact that the intensity of the marks of false targets exceeds the mark of the real ones and the latter is lost against their background. Moreover, false targets have different speeds, ranges and coordinates.

Active jamming station interferes in the front and rear sectors:

- in azimuth ± 45 degrees;

- in elevation ± 30 degrees.

and provides the simultaneous creation of deliberate targeted active interference of at least four radio electronic equipment, including homing radioheads (RCSG), with a spacing of their carrier frequencies of more than 100 MHz.

The sensitivity of the product in the range of operating frequencies at the input for IS, NS, SPS and DI signals is not more than minus 51 dBW.

Active jamming station generates noise and simulation noise and ensures the formation of the following types of interference:

- high-frequency noise interference (IDT);

- false targets (false marks);

- leading in range;

- speeding away.

The developed small-sized station of active interference has a block-modular design, which ensures its compactness, ease of assembly and reliability, as well as reducing the overall dimensions of the blocks and modules of the station.

It is known that the existing active jamming stations made in block-modular design - for example, SAP-518, have significant weight and overall dimensions of the units included in its composition, for example, its weight is more than 500 kg, the weight of the claimed active jamming station is less than 100 kg

In addition, the claimed active jamming station has a single-point single-container structure, which minimizes the occupancy of the suspension points on the aircraft.

The inventive active jamming station in a single-container version is matched with the aerodynamic characteristics of the aircraft and is located on one suspension unit under the aircraft wing. Due to the fact that the container in which the inventive device is located has small geometric and mass-dimensional characteristics, it practically does not reduce the flight-tactical characteristics of the aircraft, and also provides minimal shadowing by the aircraft body.

The container in which the blocks of the station of active interference are located is equipped with an autonomous cooling system, which is designed to supply air inside it, used to cool the blocks of the product. In addition, the container eliminates the possibility of damage to the modules included in the design of the active interference station, has increased operational reliability, and, due to its unification, can be used for aircraft of various manufacturers.

The open architecture and block-modular design of the active jamming station provide the possibility of its modernization and its use, taking into account the development of enemy electronic equipment.

The developed active jamming station belongs to the field of electronic warfare and is intended to increase the efficiency of suppressing signals received from electronic means while ensuring frequency storage and its re-emission to the frequency of electronic means of suppression.

The most important characteristic for evaluating the operation of an active interference station is the interference efficiency. In JSC “TsNIRTI named after academician A.I. Berga ”were carried out - mathematical modeling, half-life and full-scale tests for the suppression of promising electronic means.

In order to effectively suppress active interference of electronic equipment by the station, the following conditions were met:

- ensuring accurate frequency-time combination of the intervals of operation of the suppressed equipment and radio suppression systems;

- the most rational optimal interference structure is formed;

- the required noise-signal ratio at the input of the suppressed electronic means is provided, at which the desired value of the interference level is achieved.

- ensured coherence with respect to the received signal, which allows to increase the spectral density of the interfering signal.

In JSC “TsNIRTI named after academician A.I. Berga ”, along with traditional methods and types of interference, mathematical semi-natural and full-scale modeling of the organization of interference was carried out according to the information criterion for the quality of interference, while the radar station is considered as a meter that determines the parameters of the target. The information criterion for interference quality is applicable at all stages of the radar operation.

As a result of modeling and testing, a significant energy gain was obtained, which allows to increase the efficiency of creating active interference by several times in comparison with interference stations of the previous generation.

Claims (3)

1. Active jamming station includes: front hemisphere receive antenna - PPS, rear hemisphere receive antenna - ZPS, two low-noise amplifiers, input switching matrix, two buck converters, two local oscillator frequency synthesizers, two mixers, two programmable control devices, two analogue converters -digit ”, two high-speed random access memory, two 1 GHz frequency synthesizers, two digital-to-analog converters, two modulators, two boost converters, an output switching matrix, two amplifiers a transmitting antenna PPS and a transmitting antenna ZPS, two blocks for determining the frequency of the input signal, a communication and control device, while the output of the antenna PPS or ZPS is connected in series with the inputs of parallel low-noise amplifiers, the outputs of which are connected in series with the inputs of the input switching matrix, two outputs the signal of PPP or ZPS located in parallel are connected in series with the inputs of two parallel parallel step-down converters whose outputs are connected in series with the input two parallel mixers, the outputs of which are connected in series with the inputs of two parallel, high-speed random access memory devices, the outputs of which are connected in series with the inputs of two parallel digital-to-analog converters, the outputs of which are connected in series with the inputs of two boosting parallel converters the outputs of which are connected in series with the inputs of the output switching matrix, the two outputs of which are connected with the inputs of two parallel arranged amplifiers power pulses, the outputs of which are connected to the inputs of parallel transmitting antennas - PPS or ZPS, in addition, the outputs from the signal lines of the PPS and ZPS signals are connected to the inputs of two parallel parallel blocks for determining the frequency of the input signal, the inputs of the downconverters are connected in series with the outputs of the synthesizers of the local oscillator frequencies, the inputs of two mixers are connected to the outputs of two parallel synthesizers of the frequency of 1 GHz, the outputs of which are respectively connected in series with the inputs of two m of regulators, and the inputs of the local oscillator frequency synthesizers are connected in series with the inputs of two parallel-located, step-up converters, the outputs of the input signal frequency determining units located in parallel are connected to the inputs of programmable, parallel-located control devices, the outputs of which are in turn connected with the inputs of the local oscillator frequency synthesizers, in turn, the output of the communication and control device is connected in series with two parallel ammiruemymi control devices, and the communication control device and interacts with the avionics. 2. Active jamming station according to claim 1, characterized in that it is constructed structurally in block-modular design, wherein each block of the jamming station consists of separate modules and includes: receiving antennas (PPS and ZPS), two blocks of antenna devices, block measuring the frequency of the received signal, two blocks of the microwave switch, two blocks of the power amplifier, a signal conditioning unit, a control unit and a state control unit, the outputs of each antenna unit PPS and ZPS are connected in series with the inputs of the instantaneous frequency measurement unit signal, the output of which is connected in series with the unit for converting the supply voltage and microwave switching, the output of which is connected in series with the input of analysis and signal generation, and the output of the unit for generating microwave signals is connected in series with the input of the voltage conversion and microwave modulation unit, and with a supply bus the unit for instantaneous measurement of the frequency of the received signal, the unit for converting the supply and microwave switching voltages, the signal analysis and generation unit, and the control control unit are combined with “round-trip” communications, which are connected to each other and to the antenna units of PPS and ZPS with microwave switches for PPS and ZPS and with blocks of output power amplifiers for PPS and ZPS, in turn, the outputs of the block for converting the supply voltage and microwave switching is connected to the inputs of the blocks of power amplifiers, the outputs of the blocks of power amplifiers are connected to the inputs of the microwave switches, the outputs of which are connected to the inputs of the antenna devices for PPS and ZPS, as well as the outputs from the microwave switches are connected to the inputs of the antenna blocks. 3. The active jamming station according to claim 2, characterized in that it is implemented in a single-point - single-container version, coordinated with the aircraft (LA) by aerodynamic characteristics and placed on one node of the suspension under the wing of the aircraft, has an autonomous cooling system and geometric characteristics, ensuring minimal shadowing by the aircraft body, while the container eliminates the possibility of damage to the modules included in the design of the active jamming station, has increased operational reliability, and, due to its Standardization minutes, jamming station may be used for different aircraft manufacturers.

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