RU87541U1 - CONTROL RADAR RESPONSE - Google Patents

Abstract

A control radar transponder including an antenna, a preselector, a mixer and an intermediate frequency amplifier (UHF), a detector and a video amplifier (WL), a local local oscillator, a decoder, a transmitter, a modulator, an encoder, the antenna output being connected to the first input of the preselector, the preselector output connected to the input mixer and UPCH, to the other input of which a local local oscillator is connected, and to the output is the input of the detector and VU, the output of the detector and VU is connected to the decoder input, the decoder output is connected to the encoder input, the encoder output is connected to the modulator input , The modulator output is connected to the transmitter input, the output of which is connected to the second input of the preselector, characterized in that it further comprises a delay line connected in parallel to the bond connecting the detector output and input slave and the decoder, wherein the delay line is adjustable.

Description

The field of technology.

The utility model relates to means for monitoring the parameters of devices of systems using secondary radiation of radio waves, in particular, to control devices for interrogators of state recognition systems and secondary radar.

The prior art.

Known reference radar transponder containing (Handbook of radar. Edited by M. Skolnik. Trans. From English; T.3. - M .: Sov. Radio, 1978, p. 489) antenna, preselector, mixer and intermediate amplifier frequency (UPCH), detector and video amplifier (VU), local oscillator, decoder, transmitter, modulator, encoder, and the antenna output is connected to the first input of the selector, the output of the selector is connected to the input of the mixer and the amplifier, to the other input of which the local oscillator is connected, and to the output - the input of the detector and the slave, the output of the detector and the slave is connected to row decoder, the decoder output is connected to the input of the encoder, the encoder output is connected to the input of the modulator, the modulator output is connected to the input of the transmitter, the output of which is connected to the second input of the preselector. The principle of using this device for monitoring consists in the emission by the interrogator of packets of interrogation signals causing the control radar transponder to issue and the interrogator to receive packets of response signals observed by the controlling person on information display devices from the interrogator.

The disadvantage of this device is the inability to control with its help the resolving power of interrogators in range.

Formulation of the problem.

The objective of the utility model is to provide the ability to control with its help the resolving power of interrogators in range.

The technical result that provides the solution to this problem is duplication with a given delay of the interrogation signal in the transponder, providing two response signals per interrogation, the time interval between which is the input for evaluating the resolution, since it corresponds to the location of another object at a specified distance from the interrogator defendant requiring permission.

The essence of the utility model.

The solution of this problem and the achievement of the claimed technical result are achieved by the fact that the control radar transponder, including the antenna, preselector, mixer and IF amplifier, detector and control unit, local oscillator, decoder, transmitter, modulator, encoder, and the antenna output is connected to the first input of the preselector, output the preselector is connected to the input of the mixer and the amplifier, to the other input of which the local local oscillator is connected, and to the output is the input of the detector and the slave, the output of the detector and slave is connected to the decoder input, the decoder output is connected to the input encoder, the encoder output is connected to the input of the modulator, the output of the modulator is connected to the input of the transmitter, the output of which is connected to the second input of the preselector, according to the utility model further comprises a delay line connected in parallel with a communication line connecting the output of the detector and the slave and the decoder input, and the delay line is made adjustable.

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

Supplementing the control radar transponder with a delay line connected in parallel with the communication line connecting the output of the detector and the control unit and the input of the decoder forces the transponder to generate a response signal to the request signal transmitted directly from the detector and the control unit to the same request signal, but delayed delay line. Thus, the responder to the packet of interrogation signals emitted in the main beam of the antenna pattern of the interrogator generates two packets of response signals - the main and the delayed one. In this case, the first packet corresponds to the location of the responder (the true responder), and the second corresponds to the location of the simulated remote responder (object with the responder, which must be allowed). The compliance of the interrogator with the required resolution is judged by separately displaying on the display device information from the interrogator the location of the true transponder and the simulated transponder. The distance between the resolved true and simulated transponder is set by adjusting the delay line equal to the required resolution of the interrogator in range. Thus, the claimed technical result is achieved and, as a result, the solution of the technical problem, which consists in providing the ability to control the resolution of the interrogators in range.

Description of the drawings.

The figure shows a functional diagram of the inventive utility model.

Description of utility model in statics.

The control radar transponder includes an antenna 1, a selector 2, a mixer and an IF amplifier 3, a detector and a control unit 4, a local oscillator 5, a decoder 6, a transmitter 7, a modulator 8, an encoder 9, and a delay line 10. The output of the antenna 1 is connected to the first input of the preselector 2, the output of the preselector 2 is connected to the input of the mixer and UPCH 3, the local oscillator 5 is connected to the other input of the mixer and UPCH 3, the input of the detector and VU 4 is connected to the output of the mixer and UCH 4, the output of the detector and VU 4 is connected to the input of decoder 6, the output of decoder 6 is connected to the input of encoder 9, the output of encoder 9 is connected to the input of modulator 8, the output of modulator 8 is connected to the input of transmitter 7, the output of transmitter 7 is connected to the second input of preselector 2, delay line 10 is connected in parallel to the line communication with connecting the output of the detector and WU 4 and the input of the decoder 6, and the delay line 10 is made adjustable.

The delay line 10 is a typical electronic device implemented in analog or digital form.

Description of utility model in dynamics.

The control radar transponder operates as follows. The interrogation signals emitted by the verified interrogator are received by antenna 1, converted using preselector 2, local oscillator 5 and a mixer and UPCH 3 into signals amplified at an intermediate frequency, are detected and amplified by the detector and WU 4, and are transmitted to decoder 6 either directly or through delay line 10. Decoder 6 decodes each of the request signals received on it and generates a start signal for encoder 9 to generate pulses that make up the response signal code and control modulator 8. Modulator 8 starts the transmitter 7, which generates a response signal that passes through preselector 2 and is emitted through antenna 1. Thus, the interrogator receives two response signals for each interrogation signal emitted by it, one of which is delayed relative to the other by a value of t _s determined by the parameters of the delay line 10. Accordingly, two packets of response signals are received on the packet of interrogation signals emitted by the interrogator, the first of which characterizes the true location of the control transponder, and the second, delayed, the location of the resolved simulated transponder. The delay t _s between the response signals is set by adjusting the delay line 10 to a value of 2ΔD _tr / s, where ΔD _tr is the required resolution of the interrogator in range, c is the speed of light. If the resolution of the interrogator in range corresponds to the required, then on the screen of the device displaying information from the interrogator, the true and simulated transponder will be observed separately.

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 control radar transponder to assess the resolution of the interrogators in range.

Claims (1)

A control radar transponder including an antenna, a preselector, a mixer and an intermediate frequency amplifier (UHF), a detector and a video amplifier (WL), a local local oscillator, a decoder, a transmitter, a modulator, an encoder, the antenna output being connected to the first input of the preselector, the preselector output connected to the input mixer and UPCH, to the other input of which a local local oscillator is connected, and to the output is the input of the detector and VU, the output of the detector and VU is connected to the decoder input, the decoder output is connected to the encoder input, the encoder output is connected to the modulator input , The modulator output is connected to the transmitter input, the output of which is connected to the second input of the preselector, characterized in that it further comprises a delay line connected in parallel to the bond connecting the detector output and input slave and the decoder, wherein the delay line is adjustable.