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Infrared detector super large area array composite splicing method

An infrared detector and detector technology, applied in the field of aerospace optical remote sensing, can solve the problem of no coverage, etc., and achieve the effects of reducing imaging blind spots, simple data processing, and simple optical system design

Active Publication Date: 2017-06-09
BEIJING RES INST OF SPATIAL MECHANICAL & ELECTRICAL TECH
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Problems solved by technology

[0009] The purpose of the present invention is to meet the requirements of high frame rate and zero missing alarm under high orbit and large field of view staring early warning application, realize super large area array detector splicing, and solve the problem of high non-coverage rate under the traditional splicing method

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Embodiment Construction

[0029] The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0030] The basic idea of ​​the present invention is: a composite splicing method of a large area array infrared detector, through the composite splicing method of "staggered splicing + optical splicing", to realize seamless coverage of a large field of view. This method is based on the existing small-scale area array devices, combined with mechanical splicing and optical splicing methods, divides the small-scale detectors involved in splicing into two groups arranged in a chessboard pattern, and one group is arranged in a checkerboard white grid. When two detectors have adjacent corners, overlap one pixel along the horizontal direction of the checkerboard line; the other group is arranged according to the checkerboard black grid, when two detectors have adjacent corners, overlap along the checkerboard The lines overlap by one cell in the vert...

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Abstract

A large area array infrared detector composite splicing method can realize a large field of view seamless coverage effect; the method is based on small scale area array units; when two detectors have adjacent corners, one pixel is overlapped on the chessboard line transverse line direction; another group is arranged according to chessboard grid black grid arrangement, when two detectors have adjacent corners, one pixel is overlapped on the chessboard line vertical line direction, thus finally forming two complementary overlapping detector assemblies; the method also comprises the following steps: using an optical splicing method and a light splitting prism to divide two optical paths, and placing the two detector assemblies on the conjugate image surface of the two optical paths, thus collecting images in the same field of view; finally carrying out data processing for the two images, and realizing mutual complementation. The method can basically eliminate an imaging blind zone caused by a conventional splicing mode, thus directly reducing the non coverage rate to the technology limited level; the method is high in coverage rate, and can satisfy large field of view, high resolution and seamless splicing application demands of the large area array infrared detectors.

Description

technical field [0001] The invention belongs to the technical field of spaceflight optical remote sensing, and relates to an infrared detector super-large area array splicing method applied to staring early warning in a large field of view. Background technique [0002] At present, the military threats facing our country are becoming more and more complex and severe. In the capacity building of space-based early warning systems, the new generation of high-orbit early warning systems must realize the ballistic trajectory of new types of space and space threats, weaker radiation characteristics / shorter radiation time / more complex motion characteristics. For the detection and early warning of missile targets and high-density targets, innovations must be made in the early warning system. [0003] In the technical development route of its high-orbit missile early warning payload, the United States has clearly carried out pre-research on the large area array staring early warning ...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01J5/10
CPCG01J5/10G01J2005/0077G01J2005/106
Inventor 周峰刘冰王成刚邓旭光童锡良韦书领陈祥邱民朴肖思杨天远余恭敏
Owner BEIJING RES INST OF SPATIAL MECHANICAL & ELECTRICAL TECH
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