淡江大學覺生紀念圖書館 (TKU Library)
進階搜尋


系統識別號 U0002-2206201422100000
中文論文名稱 LED多樣式彩光燈研發與應用
英文論文名稱 Design and Fabrication of Multi-Color Modes of LED Products
校院名稱 淡江大學
系所名稱(中) 電機工程學系碩士班
系所名稱(英) Department of Electrical Engineering
學年度 102
學期 2
出版年 103
研究生中文姓名 廖于德
研究生英文姓名 Yu-De Liao
學號 601440059
學位類別 碩士
語文別 中文
第二語文別 英文
口試日期 2014-05-31
論文頁數 38頁
口試委員 指導教授-詹益光
共同指導教授-曾憲威
委員-蘇木春
委員-李揚漢
委員-詹益光
中文關鍵字 發光二極體  多種模式變化  交換式電源供應  定電壓 
英文關鍵字 LED  Different Color Modes  Fixed Voltage Circuit  Switching Power Supply 
學科別分類 學科別應用科學電機及電子
中文摘要 目前節能及環保意識隨著全球產業的發展逐漸增強,於近幾年白熾燈泡陸續走入歷史,發光二極體(Light-Emitting Diode)為照明產業的應用帶來無限契機。相較於其他照明技術,發光二極體有著不錯的表現以外,顏色的多樣使得應用領域更加廣泛。由於發光二極體需為直流、低電壓提供電源,所以不適合直接推動在傳統鎢絲燈泡或日光燈之電源上,因此透過定電壓轉換才能適用於推動發光二極體產品,其必須考量電子電路相關技術的設計。
本論文將實作出發光二極體多種模式變化之彩光燈,使用單一燈具便能達到不同情境變化。透過高散熱材質鋁的散熱片設計,解決發光二極體散熱不佳的問題。以交換式電源供應設計定電壓控制電路,並且達到節能、體積小,可營造出特殊氣氛之效果。
英文摘要 Energy saving and environment protection issues have drawn people’s attention these days as the global industrial development prospers; the conventional incandescent lamps in recent years have continuously been faded and instead the LED (light emitting diode) lamps have brought in unlimited business opportunities in the illumination industry. Comparing with other illumination technology LED has many unique characteristics and also with its capability to illuminate many different color patterns makes the applications of LED across many fields. It needs to have direct current and low voltage in LED power supply therefore it is not suitable to design and fabricate LED directly on the same power sources as the conventional incandescent and fluorescent lamps. Consequently in the development of LED products it needs to use fixed voltage transformation and to consider proper electronic circuit technology in its product design.
In this thesis many color modes of LED products are designed and fabricated; it utilizes one single light apparatus to generate many different color modes of LED lamps and it also solves the heat dissipation problem. The design of control circuit is for fixed voltage circuit and with it to accomplish the requirements of energy saving, small size anal then to produce many specific color patterns of LED lamps.
論文目次 目錄
誌謝 I
中文摘要 II
ABSTRACT III
目錄 V
圖目錄 VII
表目錄 VIII
第一章 緒論 1
1.1 研究背景 1
1.2 研究動機與目的 2
1.2.1 文獻探討 3
1.2.1.1 LED燈的發展 3
1.2.1.2 顏色對人身心影響 6
1.2.1.3 顏色特質與意義 7
1.2.1.4 電源供應器 11
1.3 各章節概述 17
第二章 燈具特性介紹 18
2.1 硬體架構介紹 18
2.1.1 電源輸入 18
2.1.2 控制板 19
2.1.3 散熱片及散熱空間設計 19
2.1.4 燈板LED排列設計 21
2.2 投射模式介紹 22
第三章 控制電路設計 24
3.1 電源供應開發與設計 24
3.1.1 隔離式轉換器 25
3.1.2 非隔離式轉換器 25
3.2 穩壓電路設計 27
第四章 測試數據結果 28
4.1 投射結果 28
4.2 硬體散熱測試 29
4.3 效能測試 31
4.4 耗電流測試 32
第五章 結論與未來展望 35
參考文獻 36

圖目錄
圖 1.1 光源三原色混色圖 5
圖 1.2 白光LED燈工作原理 5
圖 1.3 電池電源供應 12
圖 1.4 線性電源供應器架構圖 13
圖 1.5 交換式電源供應器架構圖 15
圖 1.6 PWM的工作原理(一) 15
圖 1.7 PWM的工作原理(二) 15
圖 2.1 彩光燈硬體架構圖 18
圖 2.2 E27燈頭 19
圖 2.3 散熱空間圖 20
圖 2.4 散熱空間俯視圖 20
圖 2.5 燈板LED排列位置圖 21
圖 2.6 模式控制流程圖 23
圖 3.1 電源供應類型樹狀圖 24
圖 3.2 基本穩壓電路 27
圖 4.1 1/3亮固定模式實測 28
圖 4.2 2/3亮固定模式實測 29
圖 4.3 全亮固定模式實測 29
圖 4.4 過熱測試圖 30
圖 4.5 效能實測圖 32
圖 4.6 耗電流測試結果圖 34

表目錄
表 1.1 可見光譜波長 7
表 1.2 電源供應比較 16
表 2.1 顏色分配 21
表 4.1 過熱測試 30
表 4.2 滿載效率 31
表 4.3 空載功耗 31
表 4.4 耗電流測試結果 32
參考文獻 [1]Bergh, Arpad A., and Paul Jeremy Dean., “Light-emitting diodes,” Oxford, Clarendon Press, 598 p 1, 1976.
[2]S. Muthu, J. Gaines, “Red, Green and Blue LED-Based White Light Source: Implementation Challenges and Control Design,” IEEE IAS, pp.515-522, 2003.
[3]Ying, Shang Ping, Chun-Wen Tang, and Bin-Juine Huang, “Charaterizing LEDs for Mixture of Colored LED light sources,” Electronic Materials and Packaging, 2006. EMAP 2006. International Conference on. IEEE, 2006.
[4]Maximov, Vadim V., “Environmental factors which may have led to the appearance of colour vision,” Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 355.1401, 1239-1242, 2000.
[5]Uchikawa, K., ” Color vision,” Systems, Man, and Cybernetics, 1999. IEEE SMC '99 Conference Proceedings. 1999 IEEE International Conference on, p1-p4, vol.2, 12 -15 Oct 1999.
[6]Kaiser, Peter K., and Robert M. Boynton. “Human color vision,” 1996.
[7]Perez, Reinaldo. “A comparative assessment between linear and switching power supplies in portable electronic devices,” Electromagnetic Compatibility, 2000. IEEE International Symposium on. Vol. 2. IEEE, 2000.
[8]Qiang Sun, et al. ”Design of Active Power Filter for Low Voltage and High Current Switching Power Supply,” Power and Energy Engineering Conference (APPEEC), 2011 Asia-Pacific. IEEE, 2011.
[9]Gongbing Gu, Qiaoling Li. “Optimization design of transformer used in switching power supply with high power density,” Power Electronics and Motion Control Conference, IPEMC'09. IEEE 6th International. IEEE, 2009.
[10]Nakayashiki, Y., et al. ‘High-efficiency switching power supply unit with synchronous rectifier,” Telecommunications Energy Conference, 1998. INTELEC. Twentieth International. IEEE, 1998.
[11]Milner, L. A., and G. A. Rincon-Mora. “Limits of predictive current-ripple suppression in switching power-supply ICs,” Power Electronics, IET 3.1, pp43-53., 2010.
[12]Tsung-Han Yu, et al., “Design of an AC-DC and DC-DC interleaved PWM controller for switching power supply,” Energy Conversion Congress and Exposition (ECCE), IEEE, 2013.
[13]Pinto, JA Correa, et al. “A high frequency switching power supply with power factor correction using a preregulator AC-DC interleaved boost with soft-commutation,” Industrial Electronics, 1997. ISIE'97., Proceedings of the IEEE International Symposium on. Vol. 2. IEEE, 1997.
[14]梁適安, “交換式電源供應器之理論與實務設計,” 全華科技圖書股份有限公司, 2004.
[15]張錫男, “切換式電源供應器二次側同步整流技術之專利現況分析,” 國立雲林科技大學企業管理系碩士班碩士論文, 中華民國九十八年六月.
[16]Varghese, Mini, A. Manjunatha, and C. N. Raghu, “An inventive approach of stability for Voltage Regulator Modules with high frequency multiphase buck converters,” Power Electronics, Drives and Energy Systems (PEDES), 2012 IEEE International Conference on. IEEE, 2012.
[17]Chen, Jingquan, Dragan MaksimoviC, and Robert Erickson, “Buck-boost PWM converters having two independently controlled switches,” Power Electronics Specialists Conference, 2001. PESC. 2001 IEEE 32nd Annual. Vol. 2. IEEE, 2001.
[18]Kwak, Dong-Kurl, et al, “A study on novel buck-boost AC-DC converter of high performance by partial resonance technique,” Power Electronics, 2007. ICPE'07. 7th Internatonal Conference on. IEEE, 2007.
[19]Wijeratne, Dunisha, and Gerry Moschopoulos, “A two-switch AC-DC buck-boost quasi-resonant front-end converter,” Applied Power Electronics Conference and Exposition (APEC), 2013 Twenty-Eighth Annual IEEE. IEEE, 2013.
[20]Wijeratne, Dunisha, and Gerry Moschopoulos, “Analysis and design of a three-phase reduced switch buck-boost ac-dc converter,” Energy Conversion Congress and Exposition (ECCE), 2011 IEEE. IEEE, 2011.
論文使用權限
  • 同意紙本無償授權給館內讀者為學術之目的重製使用,於2019-08-04公開。
  • 同意授權瀏覽/列印電子全文服務,於2019-08-04起公開。


  • 若您有任何疑問,請與我們聯絡!
    圖書館: 請來電 (02)2621-5656 轉 2281 或 來信