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L-band radar signal receiving device and method

A radar signal and receiving equipment technology, which is applied in the field of radar signal detection and monitoring, can solve problems such as poor real-time performance, inability to meet simultaneous monitoring of multiple L-band radar signals, and complicated receiver design

Active Publication Date: 2017-08-01
SICHUAN JIUZHOU ELECTRIC GROUP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The embodiment of the present application provides an L-band radar signal receiving device and method, which are used to solve the technical problems of complex receiver design and poor real-time performance in the L-band radar device in the prior art, which cannot satisfy the simultaneous monitoring of multiple L-band radar signals. By setting the signal frequency point in the L-band, it can selectively receive and monitor important radar signals in the L-band in real time, and can monitor multiple L-band radar signals at the same time.

Method used

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  • L-band radar signal receiving device and method

Examples

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Embodiment 1

[0067] Please refer to figure 1 , is a system block diagram of the L-band radar signal receiving device of the present application provided in the embodiment of the present application, and the device includes:

[0068] Antenna 1;

[0069] A multi-channel receiver 2, connected to the antenna, including several broadband receiving modules 201-20n in the multi-channel receiver;

[0070] A processor 3, connected to the multi-channel receiver 2;

[0071] A display control computer 4 is connected with the processor 3;

[0072] Wherein, the display control computer 4 is used to select at least one wideband receiving module from the several wideband receiving modules, and provide a broadband signal for each broadband receiving module in the selected at least one wideband receiving module within the L-band frequency range. The receiving module sets the channel receiving frequency point; each broadband receiving module in the selected at least one broadband receiving module is used ...

Embodiment 2

[0076] Embodiment 2, in the embodiment of this application, please refer to figure 1 and / or figure 2 , the multi-channel receiver 2 also includes: a self-checking module 21, which is used to select at least one broadband receiving module from the several broadband receiving modules in the display control computer 4, and provide Each broadband receiving module in the selected at least one broadband receiving module performs a self-test on the multi-channel receiver 2 before setting the channel receiving frequency point.

[0077] In the specific implementation process, the foregoing examples are followed. For example, when the device needs self-inspection at power-on or self-inspection for maintenance, the self-inspection module in the multi-channel receiver performs self-inspection on the multi-channel receiver.

[0078] The self-check module 21 includes: a broadband frequency hopping self-check source 211, which is used to output a self-check source signal based on a self-...

Embodiment 3

[0088] Embodiment 3, in the embodiment of this application, please refer to image 3 , the multi-channel receiver also includes: several broadband receiving modules, each broadband receiving module includes an intermediate frequency digital processing board, after the self-test signal enters the receiving channels of several broadband receiving modules, the intermediate frequency digital processing The board judges whether the corresponding broadband receiving module works normally based on the signal in the receiving channel and outputs the self-test result.

[0089] In the specific implementation process, the aforementioned examples are used. For example, when the device needs self-checking or maintenance self-checking, the FPGA control circuit in the self-checking module sends frequency-hopping instructions and self-checking instructions to the broadband frequency-hopping self-checking source of the self-checking module. The switch of source detection turns on the control. ...

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Abstract

The invention discloses an L-band radar signal receiving device and method. The method comprises the steps that at least one broadband receiving module is selected from a number of broadband receiving modules in a multi-channel receiver in the L-band radar signal receiving device, and a channel receiving frequency point is set for each broadband receiving module in at least one selected broadband receiving module in the L-band frequency range; each broadband receiving module in at least one selected broadband receiving module is used for processing a broadband input signal with the frequency range in the L-band based on the channel receiving frequency point to acquire signal characteristic data, wherein the broadband input signal is received by an antenna and is corresponding to a target device; a processor in the L-band radar signal receiving device processes the signal characteristic data based on the channel receiving frequency point to acquire a processing result corresponding to the target device; and the display unit of a display control computer in the L-band radar signal receiving device displays the processing result.

Description

technical field [0001] The invention relates to the field of radar signal detection and monitoring, in particular to an L-band radar signal receiving device and method. Background technique [0002] The operating frequency of L-band radar is usually 1000MHz to 2000MHz, and the wavelength is 0.3 to 0.15 meters. This band has a wide range of uses. At present, typical equipment using the L-band in the world includes: communications, such as the Joint Tactical Information Distribution System / Multifunctional Information Distribution System (JTIDS / MIDS), military IFF (IFF), civilian II Secondary radar systems (ADS-B, 1090ES, TACAN, DME, etc.), satellite navigation systems such as GPS / GLONASS / Galileo, data links of a large number of precision-guided weapons, and uplinks and downlinks of other satellite communications; Radar antennas in the United States also use this band, such as the mechanically scanned array radar developed by Northrop Grumman for the E-737 / "Mapletail" early warn...

Claims

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Application Information

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IPC IPC(8): G01S7/285
CPCG01S7/285
Inventor 张珂杜甫甄体智付俊森
Owner SICHUAN JIUZHOU ELECTRIC GROUP