RGB LED微形混光元件之設計

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姓名

黃之新(Zhi-Xin Huang) 查詢紙本館藏

畢業系所

光電科學與工程學系

論文名稱

RGB LED微形混光元件之設計
(The design of small color-mixing elements of RGB LEDs)

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摘要(中)

本論文的目的在研究微形的混光機構，以將RGB LED光源之不同色光均勻混合並於出光口形成一等效白光光源。為此我們提出一個新型的楔形混光機構，並探討其混光均勻度與出光效率。

摘要(英)

In this paper, we study in the small color-mixing elements.Finally, we propose a new color-mixing device,which can transform the RGB light into the white light equivalently,and we verify the color-uniformity and efficiency.

關鍵字(中)

★ 色彩加成性
★ 發光二極體
★ 液晶顯示器
★ 色彩匹配函數
★ 稜鏡片

關鍵字(英)

★ Liguid Crystal Display
★ Light Emitting Diode
★ Color Matching Function

論文目次

目錄
摘要 Ⅰ
目錄 Ⅱ
圖索引 Ⅴ
表索引 Ⅷ
第一章緒論………………………………………………….......1
1.1 LED固態照明發展背景……………………………………………..1
1.2 顯示器背光源發展背景………………………………………….…2
1.3 論文結構……………………………………………………….……3
第二章理論背景……………………………………………...5
2.1 色彩學原理………………………………………………………….5
2.1.1 人眼響應………………………………………………….….5
2.1.2 顯像系統……………………………………………………..7
2.1.3 color matching function………………………………………8
2.2 發光二極體原理...…………………………………………………14
2.2.1 LED基本原理………………………………………………14
2.2.2 LED混光機制…………………………………………..…...17
第三章 RGB LED背光模組設計…………………………...20
3.1 CCFL vs. RGB LED…………………………………………...20
3.2 CCFL 背光模組技術………………………………….……...24
3.3 RGB LED 背光模組技術…………………………………….27
3.4小尺寸背光模組技術…………………………………….……32
第四章微型混光元件設計………………………………….37
4.1初階設計安排……………………………………………………….37
4.2 RGB 三晶片微形混光元件………………………………………..44
4.2.1改變反射削角……………………………………………….44
4.2.2 底部削角……………………………………………………47
4.2.3 色座標分析…………………………………………………49
4.2.3 加入散射表面 ……………………………………………..52
4.2.4不同距離下混光色偏情形討論…….………………………56
4.3 RGGB 四晶片微形混光元件……………………………………...58
4.3.1 改變反射削角………………………………………………58
4.3.2 改變出光口長度…………………………………………....61
4.3.3 加入散射面………………………………………………....64
第五章實驗驗證…………………………………………….67
5.1 相似放大實驗（D=90mm）…………………………………………67
5.2 相似放大實驗（D=120mm）………………………………………..73
第六章結論………………………………………………….79
參考文獻……………………………………………………………......81
中英名詞對照表………………………………………………………..84

參考文獻

參考文獻
[1] A. Zukauskas, M. S. Shur, and R. Caska, Introduction to Solid-state Lighting , John Wiley & Sons, New York (2002).
[2] S. J. Lee and S. W. Song,“Efficiency improvement in light-emitting diodes based on geometrically deformed chips,”Proc.SPIE 3621, 237-248 (1999).
[3] N. Linder, S. Kugler, P. Streubel, R.Wirth, and .Zull, “High-brightness AlGaInP light-emitting diodes using surface textur-ing. ”Proc.SPIE 4278, 19-25 (2001).
[4] C.C.Sun, C. Y. Lin, T. X. Lee, and T. H. Yang,“Enhacement of light extraction of GaN-based light-emitting diodes with a microstructure array,” Optical Enginneering 43(8) 1700-1701 (2004).
[5] G. Harbers, and C.G.A. Hoelen, “High Performance LCD Backlight using High Itensity Red,Green and Blue Light Emitting Diodes”,SID Intl. Symp.Digest Tech. Papers, 702-706 (2001).
[6] G. Harbers,W. Timmers and W. Sillevis-Smitt, “LED Backlight for LCD-HDTV”, Proc. 2nd International Display Manufacturing Conference, 181-184 (2002). Conger.,S., and Loch, K.D. (eds.). Ethics and computer use . Commun. SID 38, 12 (1996).
[7] S. West, H.Kobijn, W. Sillevis-Smitt, T. Yagi, S. Eberle and G. Harber. “High Brightness Direct LED Backlight for LCD-TV”, SID Intl. Symp. Digest Tech. Papers, (2003).
[8] A. Perduijn, S. de Krijger, J. Claessens, N. Kaito, T. Yagi, S.T. Hsu, M. Sakakibara, T. Ito and S. Okada, “Light Output Feedback Solution for RGB LED Backlight Applications”, SID Intl. Symp. Diest Tech. Papers, (2003).
[9] G .Wyszecky, W. S.Stiles, Color Science: Concepts and Methods, Quantitive Data
and Formulae, 2nd Edition , (2002), ISBN 0471399183.
[10] Hamamatsu Phontonics, 325-6, Sunayama-cho, Hamamatsu, City, Shizuoka Pref.
430-8587,Japan. Internet:http://www.hamamatsu.com
[11] C. Deller, G. Smith, and J. Franklin, “Colour mixing LEDs with short
microsphere doped acrylic rods,” Opt. Exp. 12, 3327, (2004).
[12] M. R. Krames, M. Ochiai-Holcomb, G. E. Hofler, C. Carter-Coman, E. I.
Chen, I.-H. Tan, P. Grillot, N. F. Gardner, H. C. Chui, J-W. Huang, S.A.
Stockman, F. A. Kish, and M. G. Craford, “High-power truncated-pyramid
(Al0.5Ga1-x)0.5In0.5P/GaP light-emitting diodes exhibiting >50% external
quantum efficiency,” Appl. Phys. Lett. 75, 2365, (1999).
[13] Osram Opto Semiconductors, http://www.osram.
[14] J. J. Wierer, D. A. Steigerwald, M. R. Krames, J. J. O’Shea, M. J. Ludowise, G. Christenson, T.-C. Shen, C. Lowery, P. S. Martin, S. Subramanya, W. Gotz, N. F. Gardner, R.S. Kern, and S. A. Stockman, “High-power AlGaInN flip-chip lighting diodes,” Appl. Phys. Lett. 78, 3379 (2001).
[15] P. Albou, “LED Module for Headlamp,” SAE (2003).
[16] Y. Takaaki, S. Eberle, G. Harbers, T. W. Tan, and C. E. “Chan,High Brightness Direct LED Backlight for LCD-TV,” SID Intl. Symp.
Digest Tech. Papers, (2003).
[17] P. Vahimaa, I. Kallioniemi, and H. Oy, “Backlight illumination,” SID Intl. Symp. Digest Tech. Papers, (2003).
[18] A. perduijn, S. Krijger, S. T. Hsu, M. Sakakibara, T. Ito, and S. Okada, “Light Output Feedback Solution for RGB LED Backlight Apllications,” Proc. SID (2000).
[19] C. Hoelen and G. Harbers, “LCD Backlight with High Luminescent Colored Light Emitting Diodes,” Proc. LS-9, (2001).
[20] S. Muthu, “Effective Modeling of CIE xy Coordinates for RED, Green and Blue, LEDs for White LED Light Control,” US Patent Disclosure #701121.
[21] R. W. G. Hunt, The Reproduction of Colour, 6th Edition, 2004, ISBN 0470024259.
[22] D. C. Pritchard, Lighting, 5th edtion, ISBN 0582234220, (1995).
[23] P. Green, and L. MacDonald, Colour Engineering, ISBN 0471486884, (2003).
[24] R. G. Kuehni, Color Space, ISBN 0471326704, (2003).
[25 ] H. W. Choi, M. D. Dawson, P. R. Edwards and R. W. Martin, “High extraction efficiency InGaN micro-ring light-emitting diodes.” Appl. Phys. Lett. 83, 4483, (2003).
[26] H. X. Jiang, S. X. Jin, J. Li, J. Shakya, and J. Y. Lin, “III-nitride blue microdisplays,” Appl. Phys. Lett. 78 1303-1306, (2001).
[27] H. Ries, I. Leike, and J. Muschaweck, “Optimized additive mixing of colored light-emitting diodes sources,” Opt. Eng. 43 1531-1535, (2004).
[28] S. Berlitz, and W. Huhn, “Lighting Innovations in Concept Cars,” PAL (2003).
[29] X. Deng, X. Liang, Z. Chen, W. Yu, and R. Ma, “Uniform illumination of large targets using a lens array,” Appl. Opt. 25 377-380, (1986).
[30] 林昭穎, “發光二極體導光機構之研究,” 中央大學光電所, (2002).
[31] 李宗憲,”透鏡光纖的光學模型與耦合效率之研究,” 中央大學光電所（2003）.
[31] 黃志銘, “大面積發光二極體二維發光分佈之模擬與量測,” 中央大學光電所, (2003).
[32] 黃柏誠, “大面積高功率發光二極體導光元件之設計,” 中央大學光電所, (2004).
[32] http://www.suncoastretina.com.
[33] http://www.wellypower.com.
[34] http://www.lumileds.com.
[35] http://www.cgan.com.
[36] www.3m.com.tw.

指導教授

孫慶成(Ching-Cherng Sun)

審核日期

2005-7-17

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