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姓名 周清文(Ching-Wen Chou) 查詢紙本館藏 畢業系所 光電科學研究所碩士在職專班 論文名稱 雙燈投影裝置運用於遠距教學之研究
(Dual lights of projection devices are applied to the research of the distance education)相關論文 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] [檢視] [下載]
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摘要(中) 摘 要
近年來遠距教學結合資訊技術(IT)與顯示技術的發展已逐漸普遍於各種社會教育到高等教育之中,也拉近了城鄉學校的差異,其中對於視訊設備的要求也越來越高,尤其是應用於教室中的顯示裝置更是有著尺寸大、亮度高的需求。
本研究將著重設計適合遠距教學用之顯示裝置,使其顯示裝置能滿足下列幾點需求:(a)至少能滿足60人觀看的顯示螢幕尺寸,(b)顯示裝置之亮度需至少滿足300 nit,(c) 顯示裝置的光源壽命至少大於兩年,和(d) 顯示裝置之穩定性高並價格低廉。
在本論文中利用一個雙燈光源的架構,並結合數位微鏡式投影系統以完成一個應用於遠距教學的投影顯示裝置。首先利用兩個拋物面燈耦合成為一個雙燈光源的系統並模擬且實際驗證其雙燈系統的效率後,再利用E’tendue 及幾何光學公式計算出照明系統的初始架構,並且再利用ZEMAX對照明系統進行優化,最後選擇適合的投影鏡頭及整體架構,結合照明系統與成像系統完成此設計並實機驗證,其中並詳盡的介紹每一個光學元件的工作原理。
在本論文的最後,提出一個的新架構的雙燈光源系統,經過模擬結果分析後有更高的輸出效率,用以因應更高亮度的需求。摘要(英) ABSTRACT
The long-distance teaching combines the information technology in recent years (IT) With showing the development of technology has already got generally in higher education in various kinds of social education gradually, furthering the difference of the school in urban and rural areas too, among them the demand for the video-information equipment is higher and higher, apply display device of classroom have size heavy, luminance high demand even more especially.
Whether research this design suitable long-distance teaching spend it display device, make it show device can meet the following some demand emphatically. (a)Can meet 60 display screen size that people watch at least, (b) Show the luminance of the device needs to satisfy 300 nit at least, (c) It show light source life-time of device at least it greater than on the two year,and (d) Show the stability of the device is high and cheap.
Utilize one pairs of structure, light of source among thesis this, combine DLP system with finish one apply projection of long-distance teaching show the device. Utilize two parabola light coupling become one pairs of system and simulation, light of source and prove behind the the efficiency, light of system actually at first, and then utilize E’’ tendue and geometrical optics formula to calculate out the initial structure of the lighting system, and utilize ZEMAX to optimize the lighting system again, choose the suitable projection lens and whole structure finally, this is designed and the real machine is verified to combine the lighting system and formation of image and finish systematically, operation principle of exhaustive introduction every optics component among them.
In end of thesis this, propose piece of new pairs of light source systems of structure, output efficiency on after imitating the result to analyse it have it is higher, use because should high light demand.論文目次 目 錄
摘要
目錄 ----------------------------------------------------------------------------------------- i
圖目錄 --------------------------------------------------------------------------------------iv
表目錄 --------------------------------------------------------------------------------------ix
第一章 簡介
1-1 電子白板的種類 -------------------------------------------------------------------2
1-1.1 複印式電子白板 --------------------------------------------------------------2
1-1.2 互動式電子白板 ------------------------------------------------------------------2
1-2 大型電子白板 ----------------------------------------------------------------------5
1-3 背投影顯示器 ----------------------------------------------------------------------7
1-3.1 穿透式液晶投影顯示器 ------------------------------------------------------7
1-3.2 反射式液晶投影顯示器 -----------------------------------------------------9
1-3.3 數位微鏡式投影顯示器 ----------------------------------------------------13
1-4 120吋互動式電子白板之分析 ----------------------------------------------17
第二章 單片式數位微鏡投影系統之元件與架構
2-1 單片式數位微鏡投影系統中之光學元件 ------------------------------------20
2-1.1 燈泡 ----------------------------------------------------------------------------20
2-1.2 積分器 -------------------------------------------------------------------------24
2-1.3 色輪 ----------------------------------------------------------------------------27
2-1.4 全內反射稜鏡 ----------------------------------------------------------------34
2-1.5 投影鏡頭 ----------------------------------------------------------------------35
2-1.6 反射鏡 -------------------------------------------------------------------------37
2-1.7 螢幕 ----------------------------------------------------------------------------38
2-1.8 電控與機構 --------------------------------------------------------------------43
2-2 單片式數位微鏡式投影系統及常用架構 ------------------------------------44
2-2.1 非遠心式設計 -----------------------------------------------------------------44
2-2.2 場鏡式設計 --------------------------------------------------------------------45
2-2.3 全內反射稜鏡式設計 --------------------------------------------------------47
2-3 120吋互動式電子白板之設計考量 -----------------------------------------47
第三章 雙燈光源系統之設計
3-1 習知雙燈光源之設計分析 ---------------------------------------------------- 51
3-2 雙燈系統之架構 -----------------------------------------------------------------54
3-3 雙燈系統之設計 -----------------------------------------------------------------55
3-4 雙燈系統模型之建立與模擬 ----------------------------------------------------63
3-5 雙燈系統模型驗證 -------------------------------------------------------------- 69
第四章 全內反射稜鏡式數位微鏡投影系統之設計
4-1 全內反射稜鏡之設計 -----------------------------------------------------------74
4-2 E’tendue 之計算 --------------------------------------------------------------- 77
4-3 照明系統之設計 ----------------------------------------------------------------- 80
4-4 背投影成像系統之設計 ----------------------------------------------------------90
4-5 系統分析 ---------------------------------------------------------------------------92
第五章 全內反射稜鏡式數位微鏡系統之模擬分析與系統驗證
5-1 模型系統建立 ---------------------------------------------------------------------104
5-2 模擬結果與分析 ----------------------------------------------------------------105
5-3 實驗架構 -------------------------------------------------------------------------109
5-4 實驗結果 -------------------------------------------------------------------------110
5-5 分析與討論 ----------------------------------------------------------------------115
5-5.1系統效率 ----------------------------------------------------------------------115
5-5.2 亮度均勻度 -----------------------------------------------------------------------115
5-5.3 色彩 ---------------------------------------------------------------------------------116
5-6 新雙燈光源系統 ----------------------------------------------------------------119
第六章 結論與未來展望
6-1 結論 -------------------------------------------------------------------------------123
6-2 未來展望 ---------------------------------------------------------------------------123
參考文獻 --------------------------------------------------------------------------------126參考文獻 參考文獻
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