中华眼视光学与视觉科学杂志
中華眼視光學與視覺科學雜誌
중화안시광학여시각과학잡지
CHINESE JOURNAL OF OPTOMETRY OPHTHALMOLOGY AND VISUAL SCIENCE
2010年
3期
168-171
,共4页
王媛媛%吕帆%陈浩%朱德喜%金成鹏%厉以宇
王媛媛%呂帆%陳浩%硃德喜%金成鵬%厲以宇
왕원원%려범%진호%주덕희%금성붕%려이우
光学,几何%系统,变焦光学%有限远共轭距%调制传递函数
光學,幾何%繫統,變焦光學%有限遠共軛距%調製傳遞函數
광학,궤하%계통,변초광학%유한원공액거%조제전체함수
Optics,geometric%System,zoom optics%Finite conjugate distance%Modulation transfer function
目的 按照变焦光学系统设计原理,设计一款可供电子助视器使用的10X变倍比的有限远共轭距连续变焦光学系统.方法 利用高斯光学原理进行变焦光学系统初始结构设计,利用光学设计软件对系统进行像差校正和件能评价,包括调制传递函数(MTF)、点列图和弥散斑直径分析,并通过公差灵敏度分析和蒙特卡罗法对变焦光学系统的容差能力进行研究.结果 所设计的变焦光学系统为四组元结构,分前固定组、变倍组、中间固定组和补偿组,共10片透镜,采用机械补偿方式,光学筒长84 mm,前截距316 mm.可以实现10~60 mm的连续变焦,倍率变化范嗣为-0.03~-0.3.变焦轨迹平滑,整个变焦过程无渐晕,图像质量清晰稳定.结论 借助高斯光学理论和像差理论能够设计出符合电子助视器使用要求的大变倍比有限远共轭距连续变焦光学系统.
目的 按照變焦光學繫統設計原理,設計一款可供電子助視器使用的10X變倍比的有限遠共軛距連續變焦光學繫統.方法 利用高斯光學原理進行變焦光學繫統初始結構設計,利用光學設計軟件對繫統進行像差校正和件能評價,包括調製傳遞函數(MTF)、點列圖和瀰散斑直徑分析,併通過公差靈敏度分析和矇特卡囉法對變焦光學繫統的容差能力進行研究.結果 所設計的變焦光學繫統為四組元結構,分前固定組、變倍組、中間固定組和補償組,共10片透鏡,採用機械補償方式,光學筒長84 mm,前截距316 mm.可以實現10~60 mm的連續變焦,倍率變化範嗣為-0.03~-0.3.變焦軌跡平滑,整箇變焦過程無漸暈,圖像質量清晰穩定.結論 藉助高斯光學理論和像差理論能夠設計齣符閤電子助視器使用要求的大變倍比有限遠共軛距連續變焦光學繫統.
목적 안조변초광학계통설계원리,설계일관가공전자조시기사용적10X변배비적유한원공액거련속변초광학계통.방법 이용고사광학원리진행변초광학계통초시결구설계,이용광학설계연건대계통진행상차교정화건능평개,포괄조제전체함수(MTF)、점렬도화미산반직경분석,병통과공차령민도분석화몽특잡라법대변초광학계통적용차능력진행연구.결과 소설계적변초광학계통위사조원결구,분전고정조、변배조、중간고정조화보상조,공10편투경,채용궤계보상방식,광학통장84 mm,전절거316 mm.가이실현10~60 mm적련속변초,배솔변화범사위-0.03~-0.3.변초궤적평활,정개변초과정무점훈,도상질량청석은정.결론 차조고사광학이론화상차이론능구설계출부합전자조시기사용요구적대변배비유한원공액거련속변초광학계통.
Objective To describe the principle and technique for designing a 10X continuous zoom optical system with a fixed finite conjugate distance as an E-vision aid device. Methods After the initial structure was designed by using Gaussian optics, optical design software was used to perform aberration correction and optical property evaluation which included modulation transfer function (MTF), spot diagram and diffuse spot diameter. The performance stability of the system was predicted by using a tolerance sensitivity analysis and the Monte Carlo method. Results The mechanically compensated zoom lens designed for an E -vision aid device combines four group components: a fixed front group, a moving variator, a fixed middle group and a compensator that includes a total of 10 lenses, an optical tube length of 84 mm and a front intercept distance of 316 mm. The zoom lens could achieve 10-60 mm continuous zoom and a magnification range from -0.03 to -0.3 without any image vignetting or obvious fluctuation in image quality. Conclusion A continuous zoom optical system with a fixed finite conjugate distance and large zoom ratio can be designed for an E-vision aid device with the help of Gaussian optics and aberration theory.