RU166267U1 - BISTATIC RADAR DEVICE WITH DIGITAL TELEVISION LIGHT SIGNAL - Google Patents

Abstract

A bistatic radar device with a digital television backlight signal, consisting of a receiving channel of the signal reflected from the target and a receiving channel of the reference signal from the industrial television repeater, while the receiving channel of the signal reflected from the target contains a series-connected antenna, a low-noise amplifier, a mixer, the second input of which is connected to local oscillator output, narrow-band filter, intermediate frequency amplifier, amplitude detector, video amplifier, the output of which is connected to the input a two-channel analog-to-digital converter (ADC), the outputs of which are connected to a measuring and computing device, where the received signals are correlated, the receiving channel of the reference signal contains a receiving antenna, a low-noise amplifier, a mixer, the second input of which is connected to the local oscillator output, a narrow-band filter, an intermediate-frequency amplifier, characterized in that a series-connected amplitude is additionally introduced into the receiving channel of the reference signal one detector and a video amplifier, while the input of the amplitude detector is connected to the output of the intermediate frequency amplifier, and the output of the video amplifier is connected to the input of a two-channel ADC, target information is obtained in the measuring and computing device as a result of the correlation processing of the complex envelopes of the reference digital television signal of the industrial television repeater and reflected from the target of the signal.

Description

The utility model relates to the field of radar, namely to multi-position radar, where a digital television signal is used as a backlight signal, and can be used to detect, measure coordinates and track surface objects.

Of the existing radar stations with a television backlight signal, the complex structure is known (Patent of Ukraine No. 80959 IPC G01S 13/02 (2006.01) 2013), containing channels of the reference and reflected from the target signals, as well as a measuring and computing device. Detection of the signal reflected from the target, received by the target channel antenna, is carried out in the measuring and computing device by the correlation method of signal processing. When a reflected signal is detected, the target azimuth is fixed by the angular position of the target channel antenna, the delay time of the signal reflected from the target relative to the reference signal and the Doppler frequency shift of the reflected signal are determined.

A disadvantage of the known radar station with a television backlight signal is that the presence of pilot signals and a guard interval in the composition of a digital television signal causes the occurrence of hazardous components in the correlation function that significantly impair detection characteristics.

The aim of the invention is to solve the problem of providing radio-technical secrecy of the device, improving the characteristics of target detection and resolution in range by correlation processing in the measuring and computing device of the complex envelopes of the reference and reflected from the target digital television signals.

The essence of the utility model is explained by the illustration, where in FIG. 1 shows a block diagram of a bistatic radar device with a digital television backlight signal.

A bistatic radar device with a digital television backlight signal comprises a reference signal antenna 1, a signal reflected from a target 1.1 antenna, a reference signal receiving channel 2, a receiving signal reflected from a target 2.1 channel, a local oscillator 3 common to two channels, a two-channel ADC 4, and a measuring and computing device 5. The receiving channel of the reference signal 2 includes a low noise amplifier 6, a mixer 7, a narrow-band filter 8 and an intermediate frequency amplifier 9, an amplitude detector 10 and a video amplifier 11. The receiving channel The signal reflected from the target 2.1 includes a low-noise amplifier 6.1, a mixer 7.1, a narrow-band filter 8.1, an intermediate-frequency amplifier 9.1, an amplitude detector 10.1, and a video amplifier 11.1.

The device works this way. A direct (reference) signal from an industrial television repeater enters the receiving antenna 1, follows the input of the reference signal receiving channel 2, where it is amplified using a low-noise amplifier 6 with a wide reception band, converted to a low intermediate frequency in the mixer 7 using the local oscillator 3, and through the filter 8 is amplified in the intermediate frequency amplifier 9, an amplitude detector 10 passes, at the output of which the envelope of the reference digital television signal is fed through a video amplifier 11 to a two-channel ADC 5. In the receiving antenna 1.1 receives a digital television signal reflected from the target, which is transmitted to the input of the receiving channel of the signal reflected from the target 2.1, where it is amplified by means of a low-noise amplifier 6.1 with a wide reception band, is converted to a low intermediate frequency in mixer 7.1 using local oscillator 3 and through a filter 8.1 is amplified in the intermediate frequency amplifier 9.1, an amplitude detector 10.1 passes, at the output of which the envelope of the digital television signal reflected from the target passes through the video amplifier 11.1 to another input d two-channel ADC 5. In ADC 5, the complex envelopes of the signals from both channels are converted, acquired a digital form and fed to the measuring and computing device 5, where they are recorded, cross-correlation processing and recording on magnetic media.

The essence of a useful model of a bistatic radar device with a digital television backlight signal is that in order to prevent the appearance of hazardous components in the correlation function (due to the presence of pilot signals in the digital television signal and the guard interval, which significantly degrades the detection characteristics) correlation processing It is carried out not by the digital television signal itself, but by its complex envelope. To obtain a complex envelope, the signals pass through an amplitude detector. In this case, information about the Doppler frequency shift is lost, but information about the delay time of the target signal relative to the reference signal is stored and the maximum characteristics of target detection are provided. This approach allows during the initial processing of radar information in radars with a digital television backlight signal to use existing industrial television receivers that have the appropriate bandwidth and the necessary gain.

Claims (1)

A bistatic radar device with a digital television backlight signal, consisting of a receiving channel of the signal reflected from the target and a receiving channel of the reference signal from the industrial television repeater, while the receiving channel of the signal reflected from the target contains a series-connected antenna, a low-noise amplifier, a mixer, the second input of which is connected to local oscillator output, narrow-band filter, intermediate frequency amplifier, amplitude detector, video amplifier, the output of which is connected to the input a two-channel analog-to-digital converter (ADC), the outputs of which are connected to a measuring and computing device, where the received signals are correlated, the receiving channel of the reference signal contains a receiving antenna, a low-noise amplifier, a mixer, the second input of which is connected to the local oscillator output, a narrow-band filter, an intermediate-frequency amplifier, characterized in that a series-connected amplitude is additionally introduced into the receiving channel of the reference signal one detector and a video amplifier, while the input of the amplitude detector is connected to the output of the intermediate frequency amplifier, and the output of the video amplifier is connected to the input of a two-channel ADC, target information is obtained in the measuring and computing device as a result of the correlation processing of the complex envelopes of the reference digital television signal of the industrial television repeater and reflected from the target of the signal.

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