白光LED在十米寬的主要道路照明研究設計

以作者查詢圖書館館藏

、以作者查詢臺灣博碩士

、以作者查詢全國書目

、勘誤回報

、線上人數：13

、訪客IP：18.191.108.168

姓名

鄭又銓(Yu-Chuan Cheng) 查詢紙本館藏

畢業系所

照明與顯示科技研究所

論文名稱

白光LED在十米寬的主要道路照明研究設計
(Design of 10 m wide major road illumination by white LED)

相關論文

★ 白光LED於住宅照明之設計與應用	★ 超廣角車用鏡頭設計
★ 適用於色序式微型投影機之微透鏡陣列積分器光學系統研製	★ 發光二極體色溫控制技術及其於色序式微型投影機之應用
★ 光學變焦之軌跡優化控制	★ LED光源暨LED與太陽光混和照明於室內照明之模擬與分析
★ 利用光展量概念之微型投影機光學設計方法與實作	★ 光學顯微鏡之鏡頭設計
★ 手機上隱藏式指紋辨識設計	★ DLP微型投影系統之光路設計
★ 高效率藍光碟片讀取頭	★ 模組化雙波長光學讀寫頭的設計與光學讀寫頭應用在角度量測的研究
★ 數位相機之鏡頭設計	★ 單光電偵測器之複合式光學讀寫頭
★ 三百萬畫素二點七五倍光學變焦手機鏡頭設計	★ 稜鏡玻璃選取對色差的影響與校正

檔案

[Endnote RIS 格式]

[Bibtex 格式]

[相關文章]

[文章引用]

[完整記錄]

[館藏目錄]

至系統瀏覽論文 ( 永不開放)

摘要(中)

本論文主要是根據實際的道路標準，利用一Lambertian分布的LED光源，設計一燈具使用單側布置能應用在十米寬的道路照明上。用光學模擬軟體LightTools建構反射罩模型並做光追跡獲得配光曲線，並利用照明計算軟體Dialux來分析照明結果。模擬結果平均照度為23 lx，平均輝度1.5 cd/m2，縱向均勻度、照度均勻度、輝度均勻度、最低門檻增量分別為0.73、0.519、0.4、8 %皆可符合CJJ 45-2006主要道路的照明規範。

摘要(英)

We designed a luminaire which utilize LED light source in the Lambertian distribution according to the practical standard of the road illumination. The luminaire is placed on single side of a 10 m wide road. We constructed a reflector and simulated the intensity distribution curve of luminaire by LightTools, and analyzed the results of illumination by Dialux. The average illuminance of simulated demonstration is about 23 lx, the average luminance is 1.5 cd/m2, and the value of longitudinal uniformity, uniformity of illuminance, overall uniformity, and threshold increment are 0.73, 0.519, 0.4 and 8 respectively, wherein the values conform to the standard of major road illumination of CJJ 45-2006.

關鍵字(中)

★ 道路照明
★ 輝度
★ 照度

關鍵字(英)

★ lumination
★ luminance
★ road illumination

論文目次

摘要 i
ABSTRACT ii
誌謝 iii
目錄 iv
圖目錄 viii
表目錄 vi
第一章、緒論 1
1-1 LED發展回顧 1
1-2 研究動機 2
1-3 論文架構 2
第二章、照明基本原理 3
第三章、道路照明規範 6
3-1 CJJ45-2006 6
3-1-1 輝度標準 6
3-1-2 照度標準 10
3-1-3 最低門檻增量 11
3-2 CIE 140-2000 12
3-2-1 照度量測與計算方法 14
3-2-2 輝度量測與計算方法 16
3-2-3 最低門檻增量量測與計算 18
3-2-4 道路分級 20
第四章、道路照明設計與模擬 22
4-1 道路照明標準 22
4-1-1道路排列 22
4-1-2道路規格選用 23
4-2設計流程 24
4-2-1照度均勻度 25
4-2-2輝度均勻度 26
4-3建立燈具與模擬 27
4-3-1選用燈源 27
4-3-2反射罩建立 30
4-3-3保護鏡片設計 32
4-3-4模組化設計 35
4-4模擬結果 36
4-4-1照度結果 37
4-4-2輝度結果及眩光結果 38
4-4-3效率評估 42
第五章、結論與未來展望 43
參考文獻 44

參考文獻

[1] N. Holonyak, Jr. and S. F. Bevaqua,“Coherent(visible) Light Emission
From Ga(As1-xPx) Junctions, ”Appl.Phys.Lett. 1, 82-83 (1962).
[2] S. Nakamura, and G. Fasol, The Blue Laser Doide:GaN based light emitters
and lasers Springer, Berlin pp. 216–221 (1997).
[3] S. Nakamura, T. Mukai, and M. Senoh, “Candela-class high-brightness
InGaN/AlGaN double-heterostruceture blue-lighting-emitting diodes”
Appl. Phys. Lett. 64, pp.1687-1689 (1994).
[4] Y. Shimuzu, 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,Dec.7 (1999).
[5] J. W .Pan, S. H. Tu, W. S. Sun, C. M. Wang, and J. Y. Chang, “Intergration
of non-Lmabertian LED and reflective optical element as efficient street
lamp”, Opt, Express 18, pp.A221-A230 (2010).
[6] C. H. Tsuei, J. W. Pan, and W. S. Sun, “Simulating the illuminance and the
efficiency of the LED and flurescent lights used in indoor lighting
design”.Opt, Express 16(23), pp. 18692-18701 (2008).
[7] K. Marsushima, T. Nishimura, S. Ichikawa, M. Sekiguchi, T.Tanaka,
A. Hakata, and F. Tazuke, “Indoor Lighting Facilities”, J. Light Vis. Env.
34(3), pp. 65-69 (2007).
[8] S. Liu, A. Minato, S. Ozawa, and M. Nakagawa, “A New Lighting
Communication System for Audio Signal with White LED”, J. Light & Vis.
Env. 31, pp. 65-69 (2007).
[9] R. Devonshire,“The Competitive Technology Environment for LED
Lighting”, J. Light Visual Environ. 32, pp.275-287 ( 2008).
[10] V. N. Mahajan, Optics Imaging and Abberations, Part I Ray Geometrical
Optics, SPIE PRESS, Washington (1998).
[11] R. W. Boyd, Radiometry and the Detection of Optical Radiation, John
Wiley, New York (1983).
[12] CNS中華民國國家標準10779, Z1039.
http://www.cnsonline.com.tw/
[13] CJJ 45-2006,城市道路照明標準.
[14] CIE 140-2000, Road lighting Calculation. http://www.cie.co.at/
[15] James M. Palmer, Barbara G. Grant, The Art of radiometry, SPIE,
Washington (2010).
[16] IESNA, IESNA Lighting Handbook, 9th Edition, IESNA, New York, 2000.
[17] Ronald B . Gibbons, “Influence of Pavement Reflection on Target Visibility,University of Waterloo, Doctor of Philosophy dissertation, (1997).
[18] CIE 132 1999.Design methods of lighting of roads.
[19] CIE 31 1976. Glare and uniformity in road lighting installations.
[20] Adrian, W. and Bhanji, A. “Fundamentals of disability glare. A formula to describe stray light in the eye as a function of the glare angle and age.”
Proceedings of the First International Symposium on Glare, Orlando, Florida, pp. 185–194 (1991).
[21] Ronald B .Gibbons, “Glare Modeling Formulae”, Virginia Tech
Transportation Institute.
http://lighting.rpi.edu/programs/Transportation/pdf/glareCalculation.pdf
[22] CIE Report 30-2 1982.
[23] 鄒吉平, “LED 道路照明燈具配光設計的誤區分析-照度均勻性非
輝度均勻性” 照明工程學報 Vol.20pp.46-52 (2009).
[24] Nichia,“SPECIFICATION FOR WARM WHITE LED”.
http://www.nichia.co.jp/specification/en/product/led/NSBLL110-H3-E.pdf

指導教授

孫文信(Wen-Hsin Sun)

審核日期

2012-7-23

推文