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Data synchronization test device based on aeromagnetic superconducting full tensor magnetic gradient measurement and control system

A measurement and control system, data synchronization technology, applied in the field of superconducting applications, can solve the problems of low synchronization accuracy, full tensor magnetic data and position, attitude data out of synchronization, etc.

Active Publication Date: 2022-07-19
AEROSPACE INFORMATION RES INST CAS
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Problems solved by technology

However, since the aviation carrying platform is moving, it is necessary to perform magnetic compensation through high-precision attitude projection to eliminate the interference introduced by the movement of the carrying platform. Eliminating these interferences not only requires the measurement accuracy of position, attitude data and full tensor magnetic data to be as accurate as possible High, and require position, attitude data and full tensor magnetic data must maintain a high degree of synchronization, but in the aeromagnetic superconducting full tensor gradient measurement and control system, due to the different data sources of full tensor magnetic data and position, attitude data , resulting in out-of-synchronization of full tensor magnetic data and position and attitude data, and low synchronization accuracy when data synchronization is performed through existing technologies

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  • Data synchronization test device based on aeromagnetic superconducting full tensor magnetic gradient measurement and control system
  • Data synchronization test device based on aeromagnetic superconducting full tensor magnetic gradient measurement and control system
  • Data synchronization test device based on aeromagnetic superconducting full tensor magnetic gradient measurement and control system

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Embodiment Construction

[0027] Aeronautical superconducting full tensor magnetic gradient data acquisition and control system not only needs to collect full tensor magnetic data, but also needs real-time position and attitude data corresponding to full tensor magnetic data, and the higher the synchronization, the better. The attitude data is used to effectively eliminate the interference introduced by the full tensor magnetic data in the motion state, and then the spatial distribution information of the measured area can be obtained by corresponding the full tensor magnetic data after eliminating the interference with the position information. Therefore, the measurement accuracy of the position and attitude data and the synchronization with the full tensor magnetic data determine the data quality of the aviation superconducting full tensor magnetic gradient data acquisition and control system. Different data sources cause the full tensor magnetic data to be out of sync with the position and attitude d...

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Abstract

An embodiment of the present application provides a data synchronization test device based on an aeromagnetic superconducting full tensor magnetic gradient measurement and control system, including: a signal generator configured to generate a sine wave signal with a preset frequency and transmit it to the NI9215 module and the full sheet In the magnetic data analog acquisition module; the NI9215 module is configured to trigger the acquisition of the sine wave signal based on the second pulse PPS signal to obtain the first sine wave signal; the full tensor magnetic data analog acquisition module is configured to process the sine wave signal based on the PPS signal. Amplify to obtain the second sine wave signal; the data acquisition and control system is configured to resample the second sine wave signal based on the PPS signal and the preset resampling rule, obtain the resampled second sine wave signal, and determine the first sine wave signal. The phase difference between a sine wave signal and the resampled second sine wave signal, so as to realize the phase synchronization between the first sine wave signal and the second sine wave signal based on the phase difference.

Description

technical field [0001] The application relates to the application field of superconductivity, and in particular, to a data synchronization test device based on an aeromagnetic superconducting full tensor magnetic gradient measurement and control system. Background technique [0002] The core sensor of the aeromagnetic superconducting full tensor gradient measurement and control system is the superconducting quantum interferometer, and the superconducting magnetic sensor composed of the superconducting quantum interferometer is the magnetic sensor with the highest sensitivity at present, which can measure tiny magnetic signals. However, since the airborne platform is moving, it is necessary to perform magnetic compensation through high-precision attitude projection to eliminate the interference introduced by the movement of the onboard platform. To eliminate these interferences, not only the measurement accuracy of position, attitude data and full tensor magnetic data is requi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05B19/042
CPCG05B19/0423G05B2219/25257
Inventor 刘建英郭子祺乔彦超秦静欣侯瑞东
Owner AEROSPACE INFORMATION RES INST CAS
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