具光子回收之雷射多工雙光源照明模組之研究

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姓名

蘇煜文(Yu-Wen Su) 查詢紙本館藏

畢業系所

光電科學與工程學系

論文名稱

具光子回收之雷射多工雙光源照明模組之研究
(Study of Twin-Light-Source Module with Laser Multiplexing and Photon Recycling)

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摘要(中)

本論文中，我們提出一個新穎的光學結構，不但具有光子循環的功能，亦可以應用於雷射之雙光源照明系統。在設計上，該結構為一橢圓反射面，第一個焦點放置可產生白光的螢光介質，進而形成白光光源，其背向散射的光子經橢圓反射面匯聚至第二個焦點，其上設有另一個螢光介質，其吸收頻譜應與第一個焦點之螢光配合。當第二個焦點上的螢光介質為紅外線的激發光時，本機構即可形成白光與紅外光的雙光源。為求以本機構作為車頭燈的光源，以橢圓率作為評估的參數之一進行優化，並展示多種設計成果。

摘要(英)

In this thesis, we proposed and demonstrated a novel structure to perform photon recycling for a double-light-source illumination system pumped by a laser. In the design, a phosphor layer is located at the first focus of an elliptical reflective surface, which is used to recycle the backward scattering light and refocus at the other phosphor layer at the second focus. The absorption spectrum should fit that of the emission light by the first phosphor. When the emission spectrum covers infrared light, the whole system is a double-light-source for white light and infrared light. In order to apply the proposed structure to automotive headlamp, we have optimized the structure by considering the ellipticity. Thus we evaluated various designs based on the proposed structure.

關鍵字(中)

★ 雷射二極體
★ 光子循環
★ 雙光源照明系統
★ 橢圓率

關鍵字(英)

★ Laser diode
★ Photon-recycling
★ double-light-source illumination system
★ ellipticity

論文目次

目錄
摘要 I
Abstract II
致謝 III
目錄 V
圖目錄 VIII
表目錄 XIII
第一章緒論 1
1-1 研究背景 1
1-2 研究動機與目的 6
1-3 論文大綱 9
第二章基礎原理 10
2-1 光展量(Étendue) 10
2-2 輻射光度學 13
2-2-1輻射學 16
2-2-2照度餘弦定理 22
第三章橢圓反射杯模型 25
3-1 公式推導與過程 27
3-2 反射杯參數對雙光源設計之影響 35
3-3模擬比對 46
3-4面光源在反射杯裡之反射特性- 49
3-5結論 57
第四章具光子回收之雷射多工雙光源模組 58
4-1汽車近燈光法規概述 58
4-2 車燈設計種類 62
4-3 雙光源照明模組系統 63
4-4 光學系統架構I 66
4-5 光學系統架構II 70
4-5-1 系統II之利用效率 71
4-6 光學系統架構III 75
4-6-1透鏡設計 77
4-6-2近光燈模擬結果與分析 85
第五章結論 89
參考文獻 91
中英文名詞對照表 99

參考文獻

參考文獻
1.M. Josephson, Edison: A Biography (McGraw-Hill, New York, 1959)。
2.S. Nakamura, T. Mukai, and M. Senoh, “Candela‐class high‐brightness InGaN/AlGaN double‐heterostructure blue‐light‐emitting diodes,” Appl. Phys. Lett. 64, 1687-1689 (1994).
3.Y. Shimizu, K. Sakano, Y. Noguchi, and T. Moriguchi,“Light emitting device having a nitride compound semiconductor and a phosphor containing a garnet fluorescent material,” United States Patent, US 5998925 (1999).
4.A. A. Setlur, A. M. Srivastava, H. A. Comanzo, and D. D. Doxsee, “Phosphor blends for generating white light from near-UV/blue light-emitting devices,”United States Patent, US 6685852 B2 (2004).
5.H. Wu, X. Zhang, C. Guo, J. Xu, M. Wu, and Q. Su, “Three-band white light from InGaN-based blue LED chip precoated with Green/red phosphors,”IEEE Photon. Technol. Lett. 17, 1160-1162 (2005).
6.Y. C. Shen, G. O. Mueller, S. Watanabe, N. F. Gardner, A. Munkholm, and M. R. Krames,“Auger recombination in InGaN measured by photoluminescence,”Appl. Phys. Lett. 91, 141101 (2007).
7.M. R. Krames, O. B. Shchekin, R. Mueller-Mach, G. O. Mueller, L. Zhou, G. Harbers, and M. G. Craford,“Status and future of high-power light-emitting diodes for solid-state lighting,”J. Display Technol. 3, 160-175 (2007).
8.M. Liu and B. Rong,“Evaluation of LED application in general lighting,”Opt. Eng. 46, 1-6 (2007).
9.CREE Inc.,
http://www.cree.com/~/media/Files/Cree/LED%20Components%20and%20 Modules/XLamp/Data%20and%20Binning/XLampXTE.pdf.
10.T. Mukai, S. Nagahama, T. Kozaki, M. Sano, D. Morita, T. Yanamoto, M. Yamamoto, K. Akashi, and S. Masui,“Current status and future prospects of GaN-based LEDs and LDs,” Phys. Status Solidi A 201, 2712–2716 (2004).
11.Jr.Wierer, J. Y. Tsao, and D. S. Sizov, “Comparison between blue lasers and light-emitting diodes for future solid-state lighting,” Laser Photonics Rev. 7, 963–993 (2013)
12.A. Neumann J.J. Wierer. W. Davis, Y. Ohno, S. R .J. Brueck, and J. Y Tsao,“Four-color laser white illuminant demonstrating high color-rendering quality,”Opt Express, 19, A982-A990(2011).
13.Y. Xu, L. Chen, Y. Li, G. Song,and Y. Wang,“Phosphor-conversion white light using InGaN ultraviolet laser diode,”Appl. Phys. Lett. 92, 021129-021129-3 (2008).
14.K. A. Denault,M. Cantore., S .Nakamura, S. P. DenBaars.,and R. Seshadri, “Efficient and stable laser-driven white lighting,” AIP Advances, 3, 072107(2013).
15.N. Trivellin, M. Yushchenko, M. Buffolo,C. De Santi,M. Meneghini, G. Meneghesso,and E. Zanoni,“Laser-basedlighting:experimental analysis and perspectives,”2D Mater, 10, 1166 (2017).
16.A. Lenef, J. Kelso, M.Tchoul, O. Mehl, J. Sorg, Y. Zheng, “Laser-activated remote phosphor conversion with ceramic phosphors,’’ In Proceedings of the Thirteenth International Conference on Solid State Lighting, San Diego, CA, USA, 17–21 (2014).
17.M. Daniels, O. Mehl, and U. Hartwig,“Laser-activated remote phosphor light engine for projection applications.” In Proceedings of the Current Developments in Lens Design and Optical Engineering XVI, San Diego, CA, USA, 9–13 (2015).
18.L. Ulrich,“Whiter brights with lasers,” IEEE Spectr. 50, 36–56(2013).
19.T. Reiners, “Headlight module,” United States Patent, US 9702519 B2 (2017).
20.DENAULT, A. Kristin, “Efficient and stable laser-driven white lighting,”. AIP Advances,3,7.(2013).
21.U.S. Department of Transportation, Automated Vehicle Development. National Highway Traffic Safety Administration.
22.Audi A8. http://www.audi.com.tw/tw/web/en/models/a/A8.html.
23.Lassa, Todd. The beginning of the end of driving. Motor Trend(2013).
24.J. Dokic, B. Muller,and G. Meyer,“European roadmap smart systems for automated driving”, European Technology Platform on Smart Systems Integration(2015).
25.Colour & Vision database, http://www.cvrl.org/.
26.E. Hecht, Optics (Addison Wesley, San Francisco, 2002).
27.V. N. Mahajan, Optical Imaging and Aberrations: Part I Ray Geometrical Optics (SPIE Press, Washington, 1998).
28.孫慶成，光電工程概論，初版，全華圖書股份有限公司，新北市，中華民國一百零一年。
29.J. M. Palmer and B. G. Grant, The Art of Radiometry (SPIE Press, Washington, 1998).
30.W. T. Welford and R. Winston, High Collection Nonimaging Optics : Chap. 2.7 (Academic, New York, 1989).
31.H. Ries, N. Shatz, J. Bortz, and W. Spirkl, “Performance limitations of rotationally symmetric nonimaging devices,” J. Opt. Soc. Am. A 14, 2855-2862 (1997).
32.I. Jaadane, P. Boulenguez, S. Chahory, S. Carré, M. Savoldelli, L. Jonet, F. Behar-Cohen, C. Martinsons, and A. Torriglia, “Retinal damage induced by commercial light emitting diodes (LEDs),” Free Radi. Bio. Med. 84, 337-384 (2015).
33.Audi laser headlight, https://www.auditechnologyportal.de/en/electrielectronics/lighting-technology/matrix-laser-technology1.
34.BMW Laser light Technology,
https://www.bmwoffreeport.com/blog/827/how-bmw-lasterlight-work-and-what-are-benefits/.
35.何信穎，白光 LED 之 YAG 螢光粉光學模型之研究，國立中央大學光電科學研究所碩士論文，中華民國九十六年。
36.紀葦世，高效能YAG 螢光粉之特性量測與模型，元智大學光電工程研究所碩士論文，中華民國九十九年。
37.陳靜儀，矽酸鹽螢光粉用於白光 LED 之光學模型，國立中央大學光電科學研究所碩士論文，中華民國九十七年。
38.張容瑄，綠橘雙色矽酸鹽螢光粉光學模型之建立與分析，國立中央大學光電科學研究所碩士論文，中華民國九十九年。
39.張育譽，雙螢光粉光學模型之研究其演色性之評估，國立中央大學光電科學研究所博士論文，中華民國一百零四年。
40.C. C. Sun, C. Y. Chen, H. Y. He, C. C. Chen, W. T. Chien, T. X. Lee, and T.H. Yang, “Precise optical modeling for silicate-based white LEDs,” Opt. Express 16, 20060-20066 (2008).
41.C. C. Sun, C. Y. Chen, J. H. Chang, T. H. Yang, W. S. Ji, Y. S. Jeng, and H. M. Wu, “Linear calculation model for prediction of color rendering index performance associated with correlated color temperature of white light emitting diodes with two phosphors,” Opt. Eng. 51, 054003 (2012).
42.T. H. Yang, C. Y. Chen, Y. Y. Chang, B. Glorieux, Y. N. Peng, H. X. Chen, T. Y. Chung, T. X. Lee, and C. C. Sun, “Precise simulation of spectrum for green emitting phosphors pumped by a blue LED die,” IEEE Photon. J. 6, 8400510 (2014).
43.McKinsey & Company Inc., http://www.mckinsey.com/.
44.何懋騰，具有光子循環之角度多工白光雷射照明之研究，國立中央大學碩士論文，中華民國105年。
45.弘大貿易股份有限公司,
http://hung-ta-co.com/web2013/tw/index.aspx.
46.ECE Regulation , http://www.unece.org/trans/main/.
47.鄭佳申，白光LED之一階與二階光學設計，國立中央大學光電所碩士論文，中華民國九十七年。
48.孫瑞宏，高功率LED應用於車前燈之設計，國立中央大學光電所碩士論文，中華民國九十五年。
49.孫慶成、黃之新、李宗憲和馬仕信，車燈，台灣專利，I294370，中華民國九十四年。
50.胡志銘，特殊封裝之白光LED應用於汽車近光燈之研究，國立中央大學碩士論文，中華民國九十七年。
51.程勉儒，高功率白光 LED 適應性車燈之光學設計，國立中央大學碩士論文，中華民國103年。

指導教授

楊宗勳孫慶成(Tsung-Hsun Yang)

審核日期

2019-1-30

推文