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dc.contributor.authorLai, Mu-chiehen_US
dc.identifier.citation[1] A. Zukauskas, M. S. Shur & R. Caska ,Introduction to Solid-State Lighting, Wiley, New York, (2002). [2] 蘇勉曾,吳世康,“發光材料”,第四卷,pp. 1-39,2002. [3] 陳政次,“氧化釔和氧化鋅摻雜鋱之發光特性研究”,2003. [4] 楊素華,“螢光粉在發光上的應用”,科學發展,358期,2002. [5] Lumileds Company, “High Power White LED Technology for Solid State Lighting.” [6] Hiroshi K., “Interference Color”, Progress in Optics, Vol.1,pp.213-251, 1961. [7] M. R. Krames1, J. Bhat, D. Collins, N. F. Gardner, W. Gotz, C. H. Lowery,M. Ludowise, P. S. Martin, G. Mueller, R. Mueller-Mach, S. Rudaz,D. A. Steigerwald, S. A. Stockman, and J. J. Wierer, “ High-Power III-Nitride Emitters for Solid-State Lighting,” phys. stat. sol. (a) 192, No. 2, 237–245,2002. [8] Hiroshi K., “Interference Color”, Progress in Optics, Vol.1,pp.213-251, 1961. [9] Dobrowolski, J. A., “Optical Interference Filter for the Adjustment of Spectral Response and Spectral Power Distribution,” Applied Optics, Vol.19,No.6, 1970. [10] Kruschwitz, J. D. T., “Designing Color Correcting Coating for Optimum Color Rendering Index and Light Output.” Optical Interference Coatings, TuB2, 2001. [11] 湯順清,“色度學”,北京理工大學出版社, 1990. [12] Robertson, A. R., “Computation of correlated color temperature and distribution temperature.”, Journal Of the Society America, Vol.58, pp.1528-1535, 1968. [13] Hunt, R. W. G., Measuring Colour, Hardcover, 2001. [14] CIE, Method of measuring and specifying colour rendering properties of light sources(2nd ed.), Publ. CIE No. 13.2(TC-3.2),Bureau Central de la CIE, Paris, 1973. [15] 陳中豪,蔡培瑜,“光源色度量測原理”,工業材料雜誌,208期,pp. 108-118,2004. [16] CIE Publication* No. 127, Measurement of LEDs, Central Bureau of the CIE, Vienna, Austria,1997. [17] CIE Publication No. x022, Proceedings of the 2ND CIE Expert Symposium on LED Measurement:Standard methods for specifying and measuring LED and LED cluster characteristics,Central Bureau of the CIE, Vienna, Austria, 2001. [18] [19] [20] [21] 林昭穎,韓偉國,“高亮度LED之光學與封裝設計趨勢介紹”,工業材料雜誌, 208期, pp 131-141,2002. [22] Regina Mueller-Mach1, Gerd Mueller1, Michael R. Krames1, Henning A. Hoppe2, “Highly efficient all-nitride phosphor-converted white light emitting diode”,phys. stat. sol. (a) 202, No. 9, 727–1732 ,2005. [23] Regina Mueller-Mach, Gerd O. Mueller, Michael R. Krames, and Troy Trottier, “High-Power Phosphor-Converted Light-Emitting Diodes Based on III-Nitrides”, IEEE JOURNAL ON SELECTED TOPICS IN QUANTUM ELECTRONICS, VOL. 8, NO.2 , 2002.zh_TW
dc.description.abstract本論文就藍光激發黃色螢光粉來探討對白光LED特性的影響。除了控制矽膠與螢光粉的比例可改變色彩的變化外,若變更其螢光膠的重量亦可以控制其色彩的變化現象。將螢光膠的配比控制為1:0.17的相同比例,再控制其膠量在0.008~0.012g內,其CCT的範圍會落在所需要的5400K ~ 9200K範圍中。若需較暖色系的LED其CCT為3800K ~ 3900K 範圍內,其螢光膠的配比變更為1:0.22比例;膠量為0.01 g,就可得到所需要的色彩值。若改變不同的藍色晶粒數量封裝,如八顆晶粒、六顆晶粒和四顆晶粒的藍光封裝激發黃色螢光粉,亦用相同的螢光膠比例和重量,也可控制在所需要的CCT範圍內,而其發光效率分別約為每瓦50流明。zh_TW
dc.description.abstractIn the thesis,using stimulates yellow phosphors on the blue LED to discuss to the white light LED characteristic influence。Except control silicone with phosphors the proportion,may change the color the change, if changes the silicone-phosphors weight also to be allowed to control its color the change phenomenon。If the silicone-phosphors proportion control is 1: 0.17 same proportion,control its silicone-phosphors quantity again in 0.008 ~ 0.012g,its CCT scope can fall on 5400K ~ 9200K in the scope which needs。If must compare the warm color department LED its CCT is 3800K ~ 3900K in the scope,its silicone-phosphors proportion change is 1: 0.22 proportion;The silicone-phosphors quantity is 0.01 g,may obtain the color value which needs. If changes the different blue LED quantity package,like eight chips、six ships and four chips blue LED package stimulates yellow phosphor,also uses the same silicone-phosphors proportion and the weight,also may control in the CCT scope which needs,but it luminous efficiency distinction approximately for 50 lm/W。zh_TW
dc.description.tableofcontents致謝--------------------------------------------------Ⅰ 摘要--------------------------------------------------Ⅱ Abstract----------------------------------------------Ⅲ 目錄--------------------------------------------------Ⅳ 圖目錄------------------------------------------------Ⅶ 第一章緒論-------------------------------------------- 1 1.1前言----------------------------------------------- 1 1.2照明應用------------------------------------------- 2 1.3相關文獻------------------------------------------- 2 1.4研究動機與目的------------------------------------- 3 第二章原理-------------------------------------------- 5 2.1LEDs原理------------------------------------------- 5 2.2螢光體發光機制------------------------------------- 7 2.3色彩概念------------------------------------------- 8 2.4色彩表示方式-------------------------------------- 9 2.5相關色溫及演色性指數------------------------------ 12 2.6LED量測原理--------------------------------------- 14 第三章高功率LED封裝實驗製作-------------------------- 18 3.1封裝元件流程-------------------------------------- 18 3.2固晶---------------------------------------------- 18 3.3銲線---------------------------------------------- 21 3.4低溫共燒結陶瓷與基座接合-------------------------- 23 3.5螢光膠調和---------------------------------------- 24 3.6封膠---------------------------------------------- 25 3.7Lens接合------------------------------------------ 26 3.8多顆LED封裝模組----------------------------------- 27 第四章實驗結果與討論--------------------------------- 29 4.1藍光晶粒與螢光粉對白光LED的影響------------------- 29 4.2螢光粉沉澱時間與CCT的關係------------------------- 30 4.3螢光膠重量與CCT的關係----------------------------- 33 4.4不同的多顆藍色晶粒封裝方式對CCT的關係------------- 38 4.5驅動電流與CCT的關係------------------------------- 43 第五章結論------------------------------------------- 48 第六章未來展望----------------------------------------49 參考文獻--------------------------------------------- 50zh_TW
dc.subjectwhite light LEDsen_US
dc.titleEffects of multi blue LEDs on the luminance properties of high power white LEDsen_US
dc.typeThesis and Dissertationzh_TW
item.openairetypeThesis and Dissertation-
item.fulltextno fulltext-
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