博碩士論文 101256012 詳細資訊




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姓名 鍾孟峰(Meng-Feng Chung)  查詢紙本館藏   畢業系所 光電科學研究所碩士在職專班
論文名稱 先進攝影系統C型數位單眼相機一千萬畫素三倍變焦鏡頭設計
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摘要(中) 本論文提出一種變焦鏡頭的光學系統設計,並介紹變焦鏡頭的基本架構、光學原理及設計過程需注意的細節,利用本文所提出的設計過程與優化過程,針對攝影師最常使用的鏡頭焦段,設計出一顆三倍變焦鏡頭運用於數位單眼相機上,其影像感測器為一千萬畫素CCD尺寸為APS-C (23.6mm×15.7mm),焦距範圍為17 mm至51 mm、半視角為39.8°至15.52°,F/#為2.8至4,最後利用本文所提出的公差分析流程,進行公差分析,以確保設計的變焦鏡頭可以量產化。
摘要(英) In the thesis is to design there three zoom lenses on DSLR.1000 pixels of image sensor than CCD size is APS-C (23.6mm×15.7mm),the 17-51mm is focal length range, 39.8 °-15.52 ° is half angle range, 2.8 to 4 are F/#.
First to describe the basic architecture of the zoom lens, principles of optics and design guideline that to explain thesis design process of zoom lens, processes of streamline business and processes of tolerance analysis.
Final design parameters for image quality are in compliance with the design requirements; the zoom lens MTF performance at different focal lengths and all of view angle that more than 30 percent were preserved.
關鍵字(中) ★ 變焦鏡頭
★ 鏡頭設計
★ 優化
★ 先進攝影系統C型
★ 數位單眼相機
關鍵字(英) ★ Zoom lens
★ Lens design
★ Optimization
★ APS-C
★ DSLR
論文目次 摘要............................i
Abstract.......................ii
誌謝............................iii
目錄............................iv
圖目錄...........................vi
表目錄...........................x
第一章 緒論......................1
1.1前言.....................1
1.2文獻回顧..................3
1.3研究動機與目標.............21
1.4論文架構..................22
第二章 基本原理與系統架構..........23
2.1單眼相機架構..............23
2.2變焦系統..................25
2.3非球面...................26
2.4定心係數..................28
第三章 變焦鏡頭設計...............29
3.1設計流程..................29
3.2設計規格..................31
3.3起始值的選取..............40
3.4優化流程..................43
3.5設計結果與討論.............49
第四章 公差分析...................66
4.1公差容忍度................66
4.2公差分析流程...............68
4.3公差分析結果與討論..........70
第五章 結論與未來展望..............80
參考文獻.........................82
附錄............................86
參考文獻 [1] E. Hecht, Optics, 4th ed. (Addison Wesley, 2002), pp. 217.
[2] M. F. Tompsett,“Charge transfer imaging devices,”U.S. Patent 4,085,456 (18 April 1978).
[3] G. A. Lloyd, S. J. Sasson,“Electronic still camera,”U.S. Patent 4,131,919 (26 December 1978).
[4] T. A. Jackson, C. S. Bell, “A 1.3 megapixel resolution portable CCD electronic still camera,” Proc. SPIE 1448, 2-12 (1991).
[5] T. Binder, F. Kriener, C. Wichner, “How to make a small phone camera shoot like a big DSLR:creating and fusing multi-modal exposure series,” Proc. SPIE 8291, 829106-1-10 (2012).
[6] R. J. Pegis and W. G. Peck, “First-Order Design Theory for Linearly Compensated Zoom Systems,” J. Opt. Soc. Am. 52, 905-911 (1962).
[7] E. Betensky, “Forty years of modern zoom lens design,” Proc. SPIE 5865, 586506-1-8 (2005).
[8] R. N. Youngworth, E. I. Betensky, “Fundamental considerations for zoom lens design (tutorial),” Proc. SPIE 8488, 848806-1-9 (2012).
[9] C. Chen,“Complete solutions of zoom curves of three-component zoom lenses with the second component fixed,”Appl. Opt. 53, H58-H66 (2014).
[10] A. Agarwal, S. Mahajan, S. Verma,“Digital Single Lens Reflex Photography in Clinical Orthodontics:Revolution or Evolution,”World Journal of Dentistry 5, 118-123 (2014)
[11] R. Berman, J. A. Corsetti, K. Fang, “Optical design study of a VIS-SWIR 3X zoom lens,” Proc. SPIE 9580, 95800D-1-15 (2015).
[12] A. Vella, H. Li, Y. Zhao, “Design study for a 16x zoom lens system for visible surveillance camera,” Proc. SPIE 9580, 95800L-1-8 (2015).
[13] A. Werfeli,“Photographic and projection objective of the Petzval type,”U.S. Patent 2,744,445 (8 May 1956).
[14] W. J. Smith,“Objective of the petzval type with field flattener and three or more positive elements,”U.S. Patent 3,255,664 (14 June 1966).
[15] R. Richter,“Anastigmatic objective for photography and projection,”U.S. Patent 2,031,792 (25 February 1936).
[16] M. M. Roossinov,“Wide angle orthoscopic anastigmatic photographic objective,”U.S. Patent 2,516,724 (25 July 1950).
[17] J. G. Baker,“Highly corrected objective having two inner divergent meniscus components between collective components,”U.S. Patent 2,532,751 (5 December 1950).
[18] Y. Fujioka,“Camera lens system with long back focal distance and large aperture ratio,”U.S. Patent 4,443,070 (17 April 1984).
[19] Y. Kitahara,“Large-aperture lens for low-illuminance imaging,” U.S. Patent 5,920,436 (6 July 1999).
[20] G. H. Aklin,“Telephoto objective,”U.S. Patent 2,380,207 (10 July 1945).
[21] S. Matsui,“Telephoto lens system,”U.S. Patent 4,338,001 (6 July 1982).
[22] G. H. Cook,“Optical objectives of the inverted telephoto type,”U.S. Patent 2,724,993 (29 November 1955).
[23] J. Hirakawa,“Soft focus lens,”U.S. Patent 5,822,132 (13 October 1998).
[24] M. D. Ackroyd,“Triplet-type projection lens,”U.S. Patent 3,443,864 (13 May 1969).
[25] S. Velesilk,“Reproduction lens system,”U.S. Patent 3,876,292 (8 April 1975).
[26] T. Imai,“Flare stop for a large aperture ratio zoom lens system,”U.S. Patent 4,662,723 (5 May 1987).
[27] T. Hiroshi,“Bright and compact optical-compensation type zoom lens system,”U.S. Patent 4,377,325 (22 Mar 1983).
[28] S. Hayakawa,K. Momoki,“Zoom lens having an image stabilizing function,”U.S. Patent 6,124,972 (26 September 2000).
[29] W. S. Sun, C. L. Tien, J. W. Pen, K. C. Huang, P. Y. Chu,“Simulation of autofocus lens design for a cell phone camera with object distance from infinity to 9.754 mm,”Appl. Opt. 54, E203-E209 (2015).
[30] 袁旭滄,《光學設計》,北京理工大學出版社,北京,1988。
[31] 陶純堪,《變焦距光學系統設計》,國防工業出版社,北京,1988。
[32] Synopsys Inc. ,“Defining Asphere Surfaces,”in Code V Reference Manuals,Version 10.7, pp. 233.
[33] J. W. Goodman, Introduction to Fourier Optics, 3rd ed. (McGraw-Hill, 2004).
[34] 林正淳,《光學機構設計》,太和印刷事業有限公司,台灣,2010。
[35] 村松雄一,大口徑變焦鏡頭,中國專利 CN 102253475 A,(23 November 2011)。
[36] SCHOTT, “Abbe-Diagram (nd-vd) ,” (2014). http://www.schott.com/advanced_optics/english/download/schott-abbe-diagram-nd-vd-january-2014-eng.pdf
[37] R. R. Shannon, “Tolerancing Technique,” in Handbook of Optics I, chap. 36, (McGraw-Hill, 2009).
[38] Code V Reference Manual, version 10.7 (Optical Research Associates, Synopsys, 2015).
指導教授 孫文信(Wen-Shing Sun) 審核日期 2016-1-26
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