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A test method for anti-irradiation index of star sensor lens

A technology for star sensor and index testing, applied in the field of star sensors, can solve problems such as blank test of anti-radiation index and weak anti-radiation

Active Publication Date: 2015-09-09
SHANGHAI AEROSPACE CONTROL TECH INST
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The star sensor developed by our country uses a commercial-grade CCD device. As the weak link in the anti-radiation of the star sensor, it is necessary to do a good anti-irradiation design for the optical lens in front of the CCD, so as to resist stronger space radiation. , the research on the anti-radiation index of each part of the star sensor is the prerequisite for the design of the star sensor and the reasonable selection of components, but the anti-irradiation index test of the lens part is still blank in China

Method used

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  • A test method for anti-irradiation index of star sensor lens
  • A test method for anti-irradiation index of star sensor lens
  • A test method for anti-irradiation index of star sensor lens

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Embodiment Construction

[0016] The present invention will be further elaborated below by describing a preferred specific embodiment in detail in conjunction with the accompanying drawings.

[0017] like figure 1 Shown, the anti-radiation index test method of a kind of star sensor lens of the present invention comprises the following steps:

[0018] Step 1: Carry out dose calibration of the chromogenic film dosimeter 2 in the standard dose field, and measure the linear relationship between the irradiation dose and the change value of the optical density by the spectrophotometer, so as to convert the optical density into the absorbed dose value.

[0019] In this embodiment, the chromogenic film dose measurement system and the EGSnrc Monte Carlo transport calculation system of the Xinjiang Institute of Physical and Chemical Technology were used.

[0020] Step 2, such as figure 2 As shown, the lens material of the star sensor is made into a pair of wedge-shaped optical phantoms 1, the cross section of...

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Abstract

The invention discloses a method for testing a radiation-resistant index of a star sensor lens. The method comprises the following steps of: performing dose scale calibration on a developing film dose meter in a standard dose field, and converting optical density into an absorbed dose value; manufacturing the star sensor lens material into a pair of wedge-shaped optical modes, arranging the inclined surfaces of the pair of wedge-shaped optical modes opposite to each other, and setting the developing film dose meter subjected to dose scale calibration between the inclined surfaces of the two wedge-shaped optical modes; establishing a conversion relation between the length of the developing film dose meter and the depth of the optical modes, and obtaining a depth dose distribution curve of electron beams in the optical modes; irradiating the optical modes to the specific accumulated dose by adopting an electron accelerator, measuring the optical density change value of the developing film dose meter by adopting a spectrophotometer, and obtaining a dose distribution curve of the star sensor lens; and measuring the thickness of the star sensor lens, and querying to obtain the radiation-resistant index which corresponds to the thickness of the star sensor lens on the dose distribution curve. According to the method, the star sensor lens can be subjected to ground irradiation test of the radiation-resistant index.

Description

technical field [0001] The invention relates to a star sensor, in particular to a method for testing an anti-radiation index of a star sensor lens. Background technique [0002] The emergence of CCD technology in the mid-1970s greatly improved the accuracy of star sensors, and at the same time greatly accelerated the development of star sensors. Because CCD has many advantages such as small size, light weight, low power consumption and high reliability, it is rapidly and widely used in the development of star sensors. The adoption of CCD technology and the autonomy of attitude measurement are the notable features that distinguish this generation of astrosensors from the previous generation. The star sensor developed by our country uses a commercial-grade CCD device. As the weak link in the anti-radiation of the star sensor, it is necessary to do a good anti-irradiation design for the optical lens in front of the CCD, so as to resist stronger space radiation. , the research...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01C25/00
Inventor 梁珣于朝霞
Owner SHANGHAI AEROSPACE CONTROL TECH INST
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