Design of long focal infrared catadioptric optical system for multi-guided system
-
摘要:针对多模制导中长焦距红外光学系统结构紧凑及宽温度范围热稳定性的要求,设计了一种中波红外折反光学系统。该系统根据其它模式制导的要求,采用固定焦距和口径的主镜,通过二次成像,在保持长焦距的同时减小了透镜的口径,降低了到达中继成像系统主光线的高度,同时也降低了制造成本。设计了波长为3.7~4.8 μm、焦距f为300 mm、F数为2的中波红外成像系统。结果表明,该系统结构紧凑像质优良,各视场光学传递函数均大于0.6,接近衍射极限,并且在-50~70℃可实现光学被动消热差。针对该光学系统进行了公差分析并提出了抑制杂散辐射的方法,该系统满足实际加工和应用需求。Abstract:In order to meet the requirement of compact structure and athermal stability with wide temperature range, a middle infrared catadioptric optical system is designed. According to the requirements of other guided modes, the focal length and aperture of the primary mirror is fixed. The height of the principal ray reaching the relay system can be reduced. The aperture of the lens can be decreased, which will lower the cost. A compact infrared imaging system with a wavelength 3.7-4.8 μm, focal length f=300 mm, F number 2, is presented in this paper. The results show that the system performs well and the optical transfer function of each field is close to the diffraction limit. Between -50-70℃, passive optical athermalization can be realized in this system. For this system, the tolerance analysis and some ways of resisting the stray light are presented at last. It shows that the MIR system meet the demand of actual processing and application.
-
Key words:
- infrared system/
- catadioptric system/
- athermalization
-
表 1常见红外材料的消热差和消色差系数
Table 1.Coefficients of athermalization and achromatism of common infrared materials
材料 折射率(10 μm) P/10-6 θ/10-3 表 2光学系统参数
Table 2.Parameters of optics system
波段/μm 焦距/mm 视场2ω/(°) 相对口径 表 3公差分布表
Table 3.Distribution of tolerance data
面形 3(光圈) 表面偏心1~2 ±0.01 mm -
[1] [1] 薛慧.红外搜索与跟踪系统中光学系统的设计[J].光学学报,2010,30(8):2383-2386. XUE H. Optical design of infrared search and trace system[J]. Acta Optica Sinica,2010,30(8):2383-2386.(in Chinese) [2] [2] 骆守俊.大面阵中波红外连续变焦光学系统设计[J].光学精密工程,2012,20(10):2117-2123. LUO SH J. Design of middle infrared continuous zoom optical system with a large FPA[J]. Opt. Precision Eng.,2012,20(10),2117-2123.(in Chinese) [3] [3] 潘君骅.大口径红外成像系统的光学设计[J].光学学报,2003,23(12):1475-1478. PAN J H. The methodic design of the IR imaging system with large aperture[J]. Acta Optica Sinica,2003,23(12):1475-1478.(in Chinese) [4] [4] 赵文才,马军.双向大视场消畸变低温红外目标模拟光学系统设计[J].光学精密工程,2012,20(12):2619-2625. ZHAO W C,MA J. Design of cryogenic infrared target simulation system with bidirectional and wide field for eliminating distortion[J]. Opt. Precision Eng.,2012,20(12):2619-2625.(in Chinese) [5] [5] 虞林瑶,魏群.一体式紧凑型折反光学系统设计[J].光学精密工程,2013,21(3):561-566. YU L Y,WEI Q. Design of compact integer structure of two-mirror system[J]. Opt. Precision Eng.,2013,21(3):561-566.(in Chinese) [6] [6] 项建胜,潘国庆,张运强.应用于空空导弹的二次成像折反式红外光学系统的设计[J].红外技术,2011,33(8):457-459. XIANG J SH,PAN G Q,ZHANG Y Q. The design of reflect and refractive reimaging infrared optic system used in air-to-air missile[J]. Infrared Technology,2011,33(8):457-459.(in Chinese) [7] [7] 熊衍建,吴晗平,吕照顺.军用红外光学系统性能及其结构形式技术分析[J].红外技术,2010,32(12):688-695. XIONG Y J,WU H P,LV ZH SH. Performance and structural form analysis of military infrared optical system[J]. Infrared Technology,2010,32(12):688-695.(in Chinese) [8] [8] 董科研,王健,孙强.机载双视场中波红外光学系统优化设计[J].中国光学,2012,5(6):596-601. DONG K Y,WANG J,SUN Q. Design of an airborne dual field-of -view middle wave infrared optical system[J]. Chinese Optics,2012,5(6):596-601.(in Chinese) [9] [9] 刘洋,安晓强,邓键.制冷型红外光学系统温栏杂散辐射分析及消除方法[J].应用光学,2012,33(1):186-190. LIU Y,AN X Q,DENG J. Removal of stray radiation from warm shields in cooled infrared optical systems[J]. Opt. Precision Eng.,2012,33(1):186-190.(in Chinese) [10] [10] 赵楠,薛育,王晶.利用蒙特卡洛法分析红外光学系统的杂散辐射[J].中国光学与应用光学,2010,3(6):665-670. ZHAO N,XUE Y,WANG J. Analysis of stray radiation from infrared optical system with Monte-Carlo method[J]. Chinese J.Optics and Applied Optics,2010,3(6):665-670.(in Chinese) [11] [11] 牛金星,周仁魁,刘朝晖,等.红外探测系统自身热辐射杂散光的分析[J].光学学报,2010,30(8):2267-2271. NIU J X,ZHOU R K,LIU ZH H,et al.. Analysis of stray light caused by thermal radiation of infrared detection system[J]. Acta Optica Sinica,2010,30(8):2267-2271.(in Chinese)