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GE Shirui, SU Shi, HOU Xing‘an, WANG Donglai, GUO Yuxi, LIU Jinsheng, FAN Yihong, FANG Chunshuai. Design of Automatic Changing Device for Multiple Star Points of Single Star Simulator (in Chinese). Chinese Journal of Space Science, 2026, 46(1): 1570-1580 doi: 10.11728/cjss2026.01.2025-0003
Citation: GE Shirui, SU Shi, HOU Xing‘an, WANG Donglai, GUO Yuxi, LIU Jinsheng, FAN Yihong, FANG Chunshuai. Design of Automatic Changing Device for Multiple Star Points of Single Star Simulator (in Chinese). Chinese Journal of Space Science, 2026, 46(1): 1570-1580 doi: 10.11728/cjss2026.01.2025-0003
shu

Design of Automatic Changing Device for Multiple Star Points of Single Star Simulator

doi: 10.11728/cjss2026.01.2025-0003 cstr: 32142.14.cjss.2025-0003
  • 1.

    School of Opto-Electronic Engineering, Changchun University of Science and Technology, Changchun 130022

  • 2.

    Key Laboratory of Optical Control and Optical Information Transmission Technology, Ministry of Education, Changchun 130022

  • Received Date: 2025-01-06
  • Rev Recd Date: 2025-06-25
    • Available Online: 2025-07-02
    Abstract
  • In order to solve the problems of manually changing the star point plate when simulating different stellar targets with a single star simulator, low efficiency of calibration, poor consistency of the optical axis, etc. A single-star simulator multi-star point automatic replacement device is designed. Based on the working principle of off-axis reflective single star simulator, a rotating wheel type multi-star point automatic replacement device is proposed, according to the theory and design requirements of the stellar simulator to determine the size of the star point plate micro-aperture, to design the mounting and adjustment structure of the star point plate, to adjust the consistency of the star point micro-aperture with the optical axis of the optical system, and to carry out the finite element analysis and optimization of the star point disc with the goal of light weighting. Circularity, the sources of stray light transmission are analyzed and suppression measures are summarized, and a stray light cancellation structure is designed to reduce the impact on the magnitude simulation. The design of the electronic control system to achieve the automatic switching of the star point plate and the precision analysis of the error source of the influence. The results show: the single star point tensor angle error is better than 1.2″, and the optical axis consistency of the star point position is better than 10 μm, which meets the accuracy requirements of the single star tensor angle and the star point position of the single-star simulator when simulating different stellar targets, and improves the efficiency of the checking and simulation accuracy of the simulation of different stellar targets.

     

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