RU2375723C2 - Interrogating radar of active request-response system - Google Patents

Abstract

FIELD: physics; radio.

SUBSTANCE: invention relates to active radar and can be used in ground based radar identification systems. The interrogating radar has first and second antenna switches of the main channel and sidelobe suppression channel for reception-transmission of request and response signals, connected by inputs-outputs with the antenna system of the radar station, a transmitter and a request signal encryption device, crypto calculator, receiver, first and second decoders, adaptive threshold selector, device for compiling identification results and a device for tying identification results to the range of the radar station, connected together in a certain manner.

EFFECT: increased resolution power.

2 cl, 2 dwg

Description

The invention relates to active radar and can be used in ground-based radar systems for identifying objects, for example, radar stations (radars) equipped with radar interrogators.

Interrogators are known that include an antenna, a transmitter, a receiver, two circulators, an amplitude selector and a decoder that allow the complete detection and measurement of target coordinates in azimuth and range in several modes for one review cycle, limited to a small number of requests. (USSR author's certificate No. 1835931 A1. Interrogator (its variants). - IPC ⁶ : G01S 13/75, G01S 13/79. Bull. No. 25, 09/10/1995).

A known interrogator of an active request-response radar system comprising a transmitter, circulators, an antenna with a sum-difference radiation pattern, a high-frequency sum-difference bridge, a detector detecting a sum-difference bridge, threshold devices in power and in relation, a controlled attenuator and a control unit. (Patent RU No. 2029972 C1. Interrogator of the radar system of an active request-response. - IPC ⁶ : G01S 13/75, G01S 13/79. 1995.02.27).

A known radar interrogator comprising a transmitter, a transceiver antenna, a decoupling unit connected in series, a receiver whose output is connected to an input of a measurement unit, and an output with a transmitter input, an output connected to an input of a measurement unit, a directional coupler, a controlled attenuator, and a response driver, at the input of which the "Calibration" command is given. (Patent RU No. 2234109 C1. Radar interrogator. - IPC ⁶ : G01S 13/75, G01S 13/79. 1995.02.27).

Known radar interrogator of the secondary radar system, containing serially connected transceiver antenna, circulator, decoupling unit, receiver, decoder, memory unit, information display unit, encoder and transmitter connected in series. (USSR author's certificate No. 1309574. Secondary radar system. - IPC ⁶ : G01S 13/75, G01S 13/79. 08/22/1985).

A disadvantage of the known radar interrogators is the lack of imitation resistance of signals when identifying objects in the "friend or foe" mode. When pairing them with a radar to ensure identification in range of the results of the recognition of an object with an echo signal from it from the radar, the interrogator must be supplied with a trigger pulse synchronous with the probe pulse of the radar and anticipated relative to it for a time equal to the delays in processing request and response codes in the paths defendant and interrogator.

The closest analogue of the radar interrogator of the active request-response system adopted for the prototype is a radar interrogator containing a receiver and a decoder of the response signal, the first and second antenna switches for receiving and transmitting signals of the main channel and the channel of suppressing the side lobes of the radiation pattern, connected by inputs and outputs with antenna system, for example a radar station, and outputs - with the corresponding inputs of the receiver, as well as sequentially connected encoder of the signal and the transmitter, including the exciter and output power amplifiers of the main channel and the side lobe suppression channel, the outputs of which the transmitter is connected to the first and second antenna switches. (Prince Davydov P.S., Sosnovsky A.A., Khaimovich I.A. Aviation Radar: Handbook, p.110-112, Fig.3.37. - M .: Transport, 1984. 223 p.).

A disadvantage of the known interrogator is the need to generate a special anticipated start pulse of the interrogator in the radar, and the absence of a threshold selector and a crypto calculator with an appropriate decoder in the interrogator does not provide protection against echoed response signals in the conditions of their multipath propagation and signal immunity.

The main task to be solved by the claimed invention is aimed at expanding the functionality of the interrogator by introducing a special recognition mode “friend or foe” into it using cryptographic codes, false recognition results from the reflected response signals and the ability to bring the position in the range of recognition results to the position by range of the echo signal at any position of the triggering pulse from the radar.

The technical result achieved by the implementation of the proposed technical solution is to expand the functionality of the interrogator and ensuring high imitability of the transmitted signals.

The specified technical result is achieved by the fact that, in a known radar interrogator containing a receiver and a decoder of the response signal, the first and second antenna switches for receiving and transmitting signals of the main channel and the channel for suppressing the side lobes of the radiation pattern, connected by inputs and outputs with an antenna system, for example, a radar stations, and outputs - with the corresponding inputs of the receiver, as well as series-connected encoder of the request signal and the transmitter, which includes the pathogen and output power amplifiers of the main channel and the side lobe suppression channel, the outputs of which the transmitter is connected to the first and second antenna switches, according to the proposed technical solution, crypto calculator and a second response decoder in cryptographic mode, an adaptive threshold selector, and a serial device recognition results and a device for linking the recognition results to the range of the radar station , the latter is connected by an output to the channel for receiving the results of identification by the radar station, while the adaptive threshold selector is connected by the input to the receiver, and by the output - in parallel to the first and second decoders, the latter outputs are connected to the corresponding inputs of the device for generating the recognition results, while the crypto calculator is connected to the input-output with the input-output of the encoder, and the encoder, the first and second decoders inputs on one side in parallel connected to the remote control radar station, and on the other hand with the recognition results of the binding device - in parallel to the channel start pulse from the radar interrogator;

the transmitter further comprises power preamps for the main channel and side lobe suppression channel supplying the corresponding output amplifiers of the main channel and side lobe suppression channel, the inputs of which are connected to the corresponding outputs of the pathogen, the last transmitter is connected to the request signal encoder.

The analysis of the prior art cited by the applicant made it possible to establish that there are no analogs characterized by sets of features identical to all the features of the claimed radar interrogator of the active request-response system. Therefore, the claimed technical solution meets the condition of patentability "novelty."

The search results for known solutions in the art in order to identify features that match the distinctive features of the prototype of the features of the claimed technical solution have shown that they do not follow explicitly from the prior art. From the prior art determined by the applicant, the influence of the transformations provided for by the essential features of the claimed technical solution on the achievement of the specified technical result has not been revealed. Therefore, the claimed technical solution meets the condition of patentability "inventive step".

Figure 1 shows a functional diagram of a radar interrogator of an active request-response system; figure 2 - functional diagram of the transmitter.

The radar interrogator of an active request-response system contains a first antenna switch 1 of the main channel and a second antenna switch 2 of the channel for suppressing the side lobes for receiving and transmitting request and response signals, connected by inputs / outputs to the antenna system of a radar station, a transmitter 3 and a request encoder 4 crypto calculator 5, receiver 6, first decoder 7 of the response signal in MkXA mode and ATS RBS and the second decoder 8 of the response signal in cryptography mode, adaptive threshold OR 9, device 10 and device identification results 11 binding recognition results to the radar range. (1). The transmitter 3 includes power preamps 12 and 13 supplying the corresponding output power amplifier 14 of the main channel and the output power amplifier 15 of the channel for suppressing the side lobes of the radiation pattern, the inputs of which are connected to the corresponding outputs of the exciter 16, the last transmitter 3 is connected to the encoder 4. ( Figure 2). Antenna switches 1 and 2 outputs are connected to the corresponding inputs of the receiver 6, and inputs - with output power amplifiers 14 and 15, respectively. The adaptive threshold selector 9 is connected by an input to the receiver 6, and the output is connected in parallel to the first decoder 7 and the second decoder 8, the latter outputs are connected to the corresponding inputs of the recognition results generation device 10, which is connected by an output to the identification results binding device 11 to the radar range, the latter is connected to the transmission channel of the recognition results on the radar. The crypto calculator 5 is connected with the input-output of the encoder 4 and the output with the second decoder 8. The encoder 4, the first decoder 7 and the second decoder 8 inputs are connected in parallel to the radar control panel. The recognition results binding device 11, the encoder 4, the first decoder 7 and the second decoder 8 are connected in parallel to the interrogator pulse trigger channel from the radar.

The proposed radar interrogator of the active request-response system works as follows.

The radar interrogator of the active request-response system is electrically permanently connected to the radar power supply. The work of the interrogator begins with the installation of the proposed mode of the MkXA and PBX RBS systems or cryptography mode from the radar control panel on the encoder 4 and the decoders 7 and 8. If an object’s radar is detected within the range of the interrogator, the command “Request” is sent to the last from the radar control panel via the request channel, after which the next one comes from the output of the radar from the output of the radar to the inputs of the encoder 4 of the request signal, decoders 7 and 8 and the device 11 trigger pulse corresponding to the temporary position of the radar probe pulse. The crypto calculator 5 organizes a special recognition mode with cryptographic codes that are transmitted to the encoder 4, the latter generates a serial code of the interrogation signal, anticipated relative to the radar probe pulse for a predetermined time, including the code of the established mode. The code of the request signal from the output of the encoder 4 is fed to the input of the transmitter 3, which generates high-frequency signals through a series-connected exciter 16, power preamplifiers 12 and 13, supplying the corresponding output power amplifier 14 of the main channel and the output power amplifier 15 of the side lobe suppression channel. These signals through the switches 1 and 2, respectively, enter the main channel and the channel for suppressing the side lobes of the radiation pattern of the radar antenna system and are emitted. The response signal is fed to the radar antenna and, through switches 1 and 2, is transmitted to the response signal receiver 6 and from its output it is supplied to the adaptive threshold selector 9, in which the amplitude of each response signal pulse received from the receiver 6 is measured and a threshold is established for a certain time that does not pass to decoders 7 and 8, subsequent pulses, if their amplitude is lower than the measured amplitude of the previous one, while the threshold adaptively rises if the next pulse was larger than the previous one in amplitude. This suppresses the interfering response signals arriving at the interrogator reflected from local objects and having amplitudes lower than those from the direct propagation path, which can significantly reduce the flow of false recognition results on the radar. From the output of the adaptive threshold selector 9, the response signals are supplied to the inputs of the decoders 7 and 8, which decode the response signal in the recognition mode specified by the crypto calculator 5, and the information is fed to the input of the recognition results generation device 10 in the form perceived by the radar, and then to the results binding device 11 identification to the radar range, which introduces a correction equal to the known delay in processing request and response codes, thereby positioning the range of the results of the recognition of the object is reduced to echo of the signal from it, which allows for their identification.

The proposed radar interrogator can significantly improve the efficiency of the radar in the active request-response mode.

Claims (2)

1. The radar interrogator of the active request-response system, comprising a receiver and a decoder of the response signal, the first and second antenna switches for receiving and transmitting signals of the main channel and the side lobe suppression channel of the radiation pattern connected by the inputs / outputs to the antenna system, for example, a radar station, and outputs - with the corresponding inputs of the receiver, as well as sequentially connected request signal encoder and transmitter, the output of which is connected to the first and second antenna switch to users, characterized in that a crypto calculator is introduced in it, designed to set the recognition mode with cryptographic codes, and a second response signal decoder in cryptographic mode, an adaptive threshold selector and a series-connected identification results generation device and a device for linking the recognition results to the range of the radar station , the latter is connected by an output to the channel for receiving the results of recognition by the radar station, while the adaptive threshold selector is connected by an input to the receiver, and by an output parallel to the first and second decoders, the last outputs are connected to the corresponding inputs of the recognition results generating device, while the indicated crypto calculator is connected by an input-output to the encoder output-input, the encoder, the first and second decoders the inputs are connected in parallel to the control panel of the radar station, in addition, the encoder, the first and second decoders are a device for binding the results of recognition of the parallel connected to channel no trigger pulse from the radar interrogator. 2. The radar interrogator according to claim 1, characterized in that the transmitter contains a pathogen, output power amplifiers of the main channel and the side lobe suppression channel, the inputs of which the transmitter is connected to the first and second switches for receiving and transmitting signals of the main channel and the side lobe suppression channel, preamplifiers power of the main channel and the channel of suppression of the side lobes supplying the corresponding output power amplifiers, the inputs of which are connected to the corresponding outputs of the exciter, the last The transmitter is connected to the encoder of the interrogation signal.

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