Portable radar testing system and method based on ZYNQ

A portable radar and test system technology, which is applied in the field of portable radar test systems, can solve the problems of radar test system compatibility, communication processing, and poor real-time performance, and achieve the effects of both portability and real-time performance, easy later upgrades, and fast operation speed

Active Publication Date: 2018-07-27
HARBIN INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0006] The present invention aims to solve the problem of poor real-ti...

Method used

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  • Portable radar testing system and method based on ZYNQ
  • Portable radar testing system and method based on ZYNQ
  • Portable radar testing system and method based on ZYNQ

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Experimental program
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specific Embodiment approach 1

[0047] Specific implementation mode one: refer to figure 2 Describe this embodiment in detail, a kind of portable radar test system based on ZYNQ described in this embodiment, it comprises main control module and serial communication module,

[0048] The main control module is realized by ZYNQ processing chip,

[0049] The serial communication module is used to receive the GPS data sent by the GPS device and the inertial navigation data sent by the inertial navigation device, transmit the data to the main control module, and also transmit the A frame data sent by the main control module to the measured radar, and receive the B-frame data returned by the radar under test, and transmit the B-frame data to the main control module; it is also used to receive the periodic pulse generated by the main control module, send the pulse to the radar under test, and receive the The telemetry data returned by the measuring radar is also used to receive the parameter initialization signal ...

specific Embodiment approach 2

[0071] Specific implementation mode two: refer to figure 2 This embodiment is described in detail. This embodiment is a further description of a ZYNQ-based portable radar test system described in the first embodiment. In this embodiment, the main control module includes a programmable logic unit and a processing unit, and the serial Communication modules include asynchronous RS422 communication module, asynchronous RS232 communication module, synchronous RS485 communication module and asynchronous telemetry RS422 communication module,

[0072] The programmable logic unit and the processing unit communicate through the AXI4 bus,

[0073] The programmable logic unit initializes the inertial navigation equipment through the asynchronous RS422 communication module, and the programmable logic unit initializes the GPS device through the asynchronous RS232 communication module.

[0074] The programmable logic unit is used to receive the inertial navigation data sent by the inertial...

specific Embodiment approach 3

[0076] Specific implementation mode three: refer to figure 2 This embodiment is described in detail. This embodiment is a further description of a ZYNQ-based portable radar test system described in the second embodiment. In this embodiment, it also includes a functional interface module, which includes an HDMI interface, SD card slot, USB interface, UART interface and Ethernet interface,

[0077] The programmable logic unit communicates with the display through the HDMI interface,

[0078] The processing unit is connected to the SD card, mouse, keyboard and network port respectively through the SD card slot, USB interface, UART interface and Ethernet interface. The mouse and keyboard are used for software interface command control, the SD card is used for data storage, and the network port is used for data transmission.

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Abstract

The invention discloses a portable radar testing system and method based on ZYNQ, and relates to the field of radar testing. The problem that an existing radar testing system is poor in compatibilityand communication treatment real-time performance is solved. A serial communication module is used for receiving GPS data sent by a GPS device and inertial navigation data sent by an inertia navigation device and transmits the data to a main control module, is also used for transmitting A-frame data sent by the main control module to a tested radar, receiving B-frame data returned by the tested radar and transmitting the data to the main control module, and is also used for receiving recurrent pulses produced by the main control module, sending the recurrent pulses to the tested radar, and receiving telemeasuring data returned by the tested radar. The main control module is used for receiving the GPS data and the inertial navigation data to be resolved into A-frame data or analog A-frame data and sending out the A-frame data when set recurrent pulses are reached, is also used for generating the recurrent pulses and is also used for receiving the B-frame data and the telemeasuring dataand conducting radar testing.

Description

technical field [0001] The invention relates to a ZYNQ-based portable radar testing system and testing method. It belongs to the field of radar testing. Background technique [0002] The content and scope of radar testing are very extensive. Since the development of radar testing system, its development process has gone through manual testing, automatic testing, and the current general testing stage. The generalized module design method has gradually become the mainstream. [0003] Radar real-time communication processing is one of the important means to realize radar testing. It runs through the whole process of radar from development to delivery to final retirement. Important means are of great significance to ensure the rationality of the radar design and ensure the function realization of the radar and its system. [0004] In order to meet the requirements of serial communication, data calculation and data storage in the radar test process, the radar test system mostly...

Claims

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Application Information

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IPC IPC(8): G01S7/40
CPCG01S7/40
Inventor 魏德宝乔立岩徐磊赵光权彭喜元
Owner HARBIN INST OF TECH
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