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Small relative aperture folding optical path coaxial system

A technology of relative aperture and optical system, applied in optics, optical components, instruments, etc., can solve the problems of satellite development, increase in launch cost, increase in volume and weight of optical-mechanical system, etc., to increase the amount of light received, reduce difficulty and weight , the effect of reducing the diameter

Inactive Publication Date: 2018-01-16
BEIJING RES INST OF SPATIAL MECHANICAL & ELECTRICAL TECH
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  • Claims
  • Application Information

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Problems solved by technology

At the same time, the large aperture and long focal length lead to an increase in the volume and weight of the optical-mechanical system, which is also a major challenge to the satellite platform. At the same time, the large volume and heavy weight will greatly increase the development and launch costs of the satellite.

Method used

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  • Small relative aperture folding optical path coaxial system

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Embodiment

[0024] Each step of the flow chart is described in detail below, such as figure 1 Shown:

[0025] (1) Determination of relative aperture: compare the restored image on the simulated ground with the requirements of the mission statement. When the image quality of the restored image is better than the requirements of the mission statement, iterate with a smaller relative aperture and calculate other indicators of the system, such as MTF Whether the signal-to-noise ratio meets the requirements, the smallest relative aperture can be obtained through iteration.

[0026] (2) Design the folded optical path to ensure that the focal length meets the requirements, and optimize the mirror distance of the camera so that the primary image is located near the main mirror 1, and the exit pupil is located near the folding mirror 3. After the optimization is completed, the distance between the primary and secondary mirrors of the camera is about L 1 , the distance between secondary mirror 2 ...

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Abstract

The invention relates to a small relative aperture folding optical path coaxial system. The small relative aperture folding optical path coaxial system includes a primary mirror, a secondary mirror, abreaking mirror, a triple mirror and a focal plane, wherein the optical path is injected to the breaking mirror from infinite distance; the light arrives at the secondary mirror after reflection andconverge through the primary mirror, and then the light arrives at the break mirror after being reflected by the secondary mirror, and then the light is converged between the secondary mirror and thefolding mirror to form a primary image; and the light arrives at the triple mirror after being broken by the breaking mirror, and then the light is converged at a focal plane to form a secondary imageafter being reflected by the triple. The small relative aperture folding optical path coaxial system can guarantee that MFT satisfies the requirement when the optical system is close to the diffraction limit, at the same time uses the breaking mirror folding optical path to maximally compress the volume of the optical system, and uses a secondary image system to put the breaking mirror of the camera nearby the primary image and the exit pupil, and the primary image is closes to the primary mirror to reduce the opening size of the center of the primary mirror as smaller as possible, thus greatly reducing the volume of the system and reducing the difficulty and weight of camera development.

Description

technical field [0001] The invention belongs to the technical field of aerospace space cameras, and relates to a small relative aperture folded optical path coaxial system. Background technique [0002] In the application of optical remote sensing, as the user's demand for the spatial resolution of the remote sensor is getting higher and higher, the focal length of the optical system is getting longer and longer, which leads to an increasing aperture and length of the optical system. Large aperture and long focal length increase the difficulty of camera development. Large aperture and long focal length will inevitably bring difficulties in optical and system design. For example, the processing, assembly, and support of large aperture mirrors are all difficult problems in the field of optical mechanical design. At the same time, the large aperture and long focal length lead to an increase in the volume and weight of the optical-mechanical system, which is also a major challe...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B17/08
Inventor 兰丽艳曹东晶姜海滨李富强黄伟宗肖颖杜建祥靳利锋史姣红魏鑫
Owner BEIJING RES INST OF SPATIAL MECHANICAL & ELECTRICAL TECH
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