红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2015年
4期
1229-1235
,共7页
刘石%张国玉%孙高飞%高玉军%王凌云%王浩君
劉石%張國玉%孫高飛%高玉軍%王凌雲%王浩君
류석%장국옥%손고비%고옥군%왕릉운%왕호군
太阳模拟器%一个太阳常数%光机结构%太阳准直角
太暘模擬器%一箇太暘常數%光機結構%太暘準直角
태양모의기%일개태양상수%광궤결구%태양준직각
solar simulator%one solar constant%opto-mechanical structure%solar collimation angle
为了实现对卫星控制系统中太阳敏感器的高精度地面标定和测试,提出一种真实模拟太阳光辐射特性的高精度准直式太阳模拟器设计方案,根据模拟器热功率高的特点,对氙灯与组合聚光镜、转向平面反射镜、光学积分器等主要组成部分进行了详细的光机结构与热控结构的设计。运用Ansys软件进行热学仿真分析,保证热控结构设计的合理性与最优性。通过实际检测,设计的太阳模拟器可以真实地模拟太阳光辐射特性,准直角小于32',辐照面小于100 mm时,不均匀度优于±1.6%;辐照面在(100~300) mm时,不均匀度优于±4.2%,满足对高精度太阳敏感器的地面标定和精度测试。
為瞭實現對衛星控製繫統中太暘敏感器的高精度地麵標定和測試,提齣一種真實模擬太暘光輻射特性的高精度準直式太暘模擬器設計方案,根據模擬器熱功率高的特點,對氙燈與組閤聚光鏡、轉嚮平麵反射鏡、光學積分器等主要組成部分進行瞭詳細的光機結構與熱控結構的設計。運用Ansys軟件進行熱學倣真分析,保證熱控結構設計的閤理性與最優性。通過實際檢測,設計的太暘模擬器可以真實地模擬太暘光輻射特性,準直角小于32',輻照麵小于100 mm時,不均勻度優于±1.6%;輻照麵在(100~300) mm時,不均勻度優于±4.2%,滿足對高精度太暘敏感器的地麵標定和精度測試。
위료실현대위성공제계통중태양민감기적고정도지면표정화측시,제출일충진실모의태양광복사특성적고정도준직식태양모의기설계방안,근거모의기열공솔고적특점,대선등여조합취광경、전향평면반사경、광학적분기등주요조성부분진행료상세적광궤결구여열공결구적설계。운용Ansys연건진행열학방진분석,보증열공결구설계적합이성여최우성。통과실제검측,설계적태양모의기가이진실지모의태양광복사특성,준직각소우32',복조면소우100 mm시,불균균도우우±1.6%;복조면재(100~300) mm시,불균균도우우±4.2%,만족대고정도태양민감기적지면표정화정도측시。
In order to meet the high precision ground calibration and testing of sun sensor in satellite control system, a realistic simulation of solar radiation characteristic of high precision collimated solar simulator design was presented, according to the characteristics of simulator with high thermal power. The main component of the Xenon lamp in combination with the condenser lens, steering plane mirror and optical integrator was designed in detailed structure of the heat-ray control structure. Using Ansys software for thermal simulation to ensure the rationality and optimality of thermal control structure. By the actual detecting, the designed solar simulator can simulate the real characteristics of solar radiation, collimation angle is less than 32’, unevenness is better than ±1.6% when the irradiation surface is less than 100 mm; unevenness is better than ±4.2% when the irradiation surface is (100-300) mm, meeting the high precision ground calibration and testing of sun sensor.