RU86320U1 - RADAR RECOGNITION DEVICE - Google Patents

Abstract

A radar recognition device containing n parallel working reception channels, each of which includes a series-connected antenna, receiver and indicator, characterized in that it further includes a series-connected antenna, receiver and decoder of interrogation signals, as well as a switch connected in series to each reception channel , a single blocking pulse generator, a delay line and a matching circuit included in the break of the communication line connecting the output of the receiver and the input of the indicator, when than the output of the receiver is connected to the first input of the matching circuit, and the output of the delay line is connected to the second input of the matching circuit, the output of the matching circuit is connected to the indicator input, the inputs of all switches are connected to the output of the decoder of the request signals, and the generator of a single blocking pulse and the delay line are configured to adjusting the duration of the generated pulse and delay, respectively.

Description

The field of technology.

The utility model relates to recognition systems of the "friend or foe" type of various types of targets, in particular, to radar recognition devices based on the "friend or foe" principle in radio intelligence stations.

The prior art.

A device for recognizing radars in the form of a multi-channel receiver (Aforovich AF Design of radio systems. - Minsk, Higher School, 1988, p.90), used in radio intelligence stations. It contains n receive channels, each of which includes an antenna, receiver and indicator. Each of the channels is tuned to a specific frequency band of the received signals so that all the channels in the aggregate overlap the full range of frequencies at which reconnoitered radars can operate.

The disadvantage of this device is the relatively low reliability of recognition of their own and other radars with matching or close radiation frequencies.

Formulation of the problem.

The objective of the utility model is to increase the reliability of recognition of their own and other radars with matching or close radiation frequencies.

The technical result that provides the solution to this problem is to block the passage of the signals of its radar to the indicator, if the moment of reception of these signals is behind the moment of receiving the request signals by a predetermined amount. In this case, the indicated lag value and the duration of the blocking pulses are set individually for each type of their radars.

The essence of the utility model.

The solution of the problem and the achievement of the claimed technical result are achieved by the fact that the known radar recognition device, containing n parallel receiving channels, each of which includes a series-connected antenna, receiver and indicator, according to a utility model, further includes a series-connected antenna, receiver and decoder of request signals as well as a circuit-breaker, a single blocking pulse generator, line z holders and match circuit included in the break of the communication line connecting the output of the receiver and the input of the indicator, the output of the receiver connected to the first input of the match circuit, and the output of the delay line to the second input of the match circuit, the output of the match circuit connected to the indicator input, inputs of all switches connected to the output of the decoder request signals. In this case, the generator of a single blocking pulse and a delay line are performed providing adjustment of the duration of the generated pulse and delay, respectively.

The rationale for achieving the claimed technical result and solving the problem.

The implementation of the device includes a series-connected antenna, a receiver and a decoder of interrogation signals, as well as a series-connected switch, a single blocking pulse generator, a delay line and a matching circuit inserted into each communication channel, which is included in the break of the communication line connecting the output of the receiver and the indicator input, and the output the receiver is connected to the first input of the matching circuit, and the output of the delay line to the second input of the matching circuit, the output of the matching circuit is connected to the indicator input, the inputs of all The switches are connected to the output of the interrogator of the interrogation signals; along with the radar signals, it allows the reception and decoding of interrogators associated with their radars. Since the interrogation signals are emitted with a known lead in relation to the probing signals of these radars (Radar Reference. Edited by M. Skolnik. Translated from English; T.3. - M .: Sov. Radio, 1978, p. 491-492) , then the signal at the output of the decoder can be used to generate a pulse of blocking the passage to the indication of the probing signal received with a delay relative to the associated request signal by an amount equal to this lead. In this case, possible differences in the delays and durations of the probing signals for their various types of radars are taken into account by using adjustable delay lines and single blocking pulse generators and their individual settings in each channel. If a priori it is known that there are no radars operating at frequencies of some receiving channels, such channels are switched off using switches. Thus, the claimed technical result and the solution of the technical problem posed, which is to increase the reliability of recognition of their own and other radars with matching or close radiation frequencies, are achieved.

Description of the drawings.

The figure shows a functional diagram of a radar recognition device.

Description of utility model in statics.

The radar recognition device comprises an antenna 1, a receiver 2 and a decoder 3 of the interrogation signals, as well as n parallel receiving channels, each of which includes a series-connected antenna 4 and a receiver 5, a matching circuit 6, an indicator 7, a series-connected switch 8, a single pulse generator lock 9 and delay line 10, and the output of receiver 5 is connected to the first input of matching circuit 6, and the output of line 10 of delay is connected to the second input of matching circuit 6, the output of matching circuit 6 is connected to the input of indicator 7 , the inputs of the switches 8 of all reception channels are connected to the output of the decoder 3 query signals. In this case, the generators of a single blocking pulse 9 and the delay line 10 of all channels are performed providing adjustment of the duration of the generated pulse and delay, respectively. As an antenna 1, receiver 2 and decoder 3 of the interrogation signals, it is advisable to take similar devices that are part of the transponder of the same radar recognition system, in which interrogators are paired with their radars. The rest of the newly introduced components (switch 8, generator of a single blocking pulse 9, including with the possibility of adjusting the duration of the generated pulse, delay line 10, including with the possibility of adjusting the delay, matching circuit 7) are typical and their implementation is not difficult.

Description of utility model in dynamics.

The radar recognition device operates as follows. The principle of operation of the device is based on the fact that the radar, detecting and tracking an object on board which is a radar recognition device, makes its identification on the basis of the "friend or foe" principle. In this case, in the direction of this object synchronously with the probing signals and with some precedence regarding them, the interrogator coupled with the radar emits specially coded signals of the radar recognition system (Radio-electronic systems: Fundamentals of construction and theory. Handbook. Edition. 2nd, revised and add. / Under the editorship of Ya.D. Shirman. - M .: Radio engineering, 2007, p.16, 412, 413). If the object is its own, then it must use the responder of the same radar recognition system to issue a response signal for each request signal. Foreign radars for identifying an object use their own identification system, operating at a different frequency and with a different encoding of the request signals. The probing signals of the radars are received and selected by the antenna 4 and the receiver 5 of the channel tuned to the frequency of these signals, and fed to the first input of the matching circuit 6. If the radar is your own, then the antenna 1 and the receiver 2 with some lead relative to the probing signals of the radar receive signals emitted by the paired with a radar interrogator. Request signals are fed to the input of decoder 3, which, responding to them, generates a decoding pulse. This pulse is supplied to the generator of a single blocking pulse 9 of all frequency channels, the switches 8 of which are closed. The generator of a single blocking pulse 9 of each such channel generates a blocking pulse from the decoding pulse, the duration of which is not less than the duration of the probing signals of its radar operating at the channel frequency. The blocking pulse from the output of the generator of a single blocking pulse 9 enters the delay line 10, in which it is delayed for a time that takes into account the probing by probing signals for a radar operating at the channel frequency. Next, the delayed blocking pulse arrives at the coincidence circuit; if it coincides with the probing signal, it blocks its passage to the output of the coincidence circuit 6 and then to the input of the indicator 7. As a result, the indication of the probing signals of its radars is excluded with higher reliability than in the known device.

Industrial applicability

The utility model is developed at the level of technical proposal and experimental layout. Tests of the layout confirmed the technical feasibility and industrial applicability of the radar recognition device.

Claims (1)

A radar recognition device containing n parallel working reception channels, each of which includes a series-connected antenna, receiver and indicator, characterized in that it further includes a series-connected antenna, receiver and decoder of interrogation signals, as well as a switch connected in series to each reception channel , a generator of a single blocking pulse, a delay line and a coincidence circuit included in the break of the communication line connecting the output of the receiver and the input of the indicator, when than the output of the receiver is connected to the first input of the matching circuit, and the output of the delay line is connected to the second input of the matching circuit, the output of the matching circuit is connected to the indicator input, the inputs of all switches are connected to the output of the decoder of the request signals, and the generator of a single blocking pulse and the delay line are configured to adjusting the duration of the generated pulse and delay, respectively.