光学学报, 2018, 38 (2): 0222003, 网络出版: 2018-08-30   

基于微透镜阵列的电子内窥镜光学系统设计 下载: 1204次

Design of Electronic Endoscope Optical System Based on Microlens Array
作者单位
长春理工大学光电工程学院, 吉林 长春 130022
摘要
为了满足现代医疗领域中对内窥镜小型化、大视场的需求,采用反远距光学结构作为初始结构,利用Zemax光学设计软件在原有结构中加入5×5微透镜阵列,得到了一种工作于可见光波段、全视场为110°、焦距为1.55 mm、F数为4.2、最大通光口径为3.15 mm、系统总长为7.99 mm的高清电子内窥镜物镜光学系统。该系统由6片透镜组成,以光阑面为界分为前组和后组,其中前组包括一片前后两面均为阵列面的镜片,后组包含一组双胶合透镜。整个系统的光学调制传递函数在120 lp/mm处达到0.36,接近衍射极限,满足医疗使用的要求。设计结果表明,微透镜阵列在不改变口径的条件下对增大内窥镜光学系统视场有明显优势,在医疗领域具有广阔的应用前景。
Abstract
In order to meet the needs of miniaturization and large field-of-view (FOV) of endoscopes in modern medical field, by using the retrofocus optical structure as initial structure, a high definition electronic endoscope objective optical system with 5×5 microlens array in the visible spectrum designed by Zemax software is presented. The optical system has a FOV of 110°, a focal length of 1.55 mm, F number of 4.2, a maxium clear aperture of 3.15 mm and a total length of system of 7.99 mm. The optical system is composed of 6 pieces of lens, which are divided into the front lens group and the rear lens group. The front lens group includes one lens with two-array surfaces. The rear lens group includes one double cemented lens. The modulation transfer function value of the whole system is 0.36 at the spatial frequency of 120 lp/mm, which is approaching to the diffraction limit, and meets the use of medical treatment. The design results show that the microlens array has obvious advantages in increasing the field of view of the endoscopic optical system without changing the aperture, and has a wide application prospect in medical treatment.

王丹艺, 薛常喜, 李闯, 杨红芳. 基于微透镜阵列的电子内窥镜光学系统设计[J]. 光学学报, 2018, 38(2): 0222003. Danyi Wang, Changxi Xue, Chuang Li, Hongfang Yang. Design of Electronic Endoscope Optical System Based on Microlens Array[J]. Acta Optica Sinica, 2018, 38(2): 0222003.

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