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研究生:梁家儒
研究生(外文):Jia-Ru Liang
論文名稱:新型交流電漿顯示面板能量回復驅動電路研製及伽瑪特性探討
論文名稱(外文):Development of A Novel Energy Recovery Circuit For The Ac Plasma Display Panel and Gamma Performance
指導教授:李建德李建德引用關係郭見隆郭見隆引用關係
指導教授(外文):Jiann-Der LeeJian-Long Kuo
學位類別:碩士
校院名稱:長庚大學
系所名稱:電機工程研究所
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2005
畢業學年度:93
語文別:中文
論文頁數:79
中文關鍵詞:電漿顯示器能量回復驅動電路伽瑪特性曲線
外文關鍵詞:PDPCPLD
相關次數:
  • 被引用被引用:0
  • 點閱點閱:139
  • 評分評分:
  • 下載下載:14
  • 收藏至我的研究室書目清單書目收藏:0
本文主是針對交流電漿顯示面板的能量回復驅動電路做分析與設計,並提出一種新型的能量回復驅動電路,來降低原本的驅動電壓,從電力電子的角度來看,降低了驅動電壓,不但可以減少其面板功率消耗,在元件的選擇上,也可以選擇耐壓較低的元件,因切換所造成的開關突波,也可以獲得有效的抑制。本文首先介紹電漿顯示器特性、面板結構及顯像原理,接著對現有的能量回復驅動電路文獻作簡介,最後針對所提出來的新型能量回復驅動電路與控制時序做一分析,並且與現有相關文獻作比較。最後對面板量測其輸入電壓與照度的關係求出此面板的伽瑪特性曲線。
This thesis proposes the sustainer driver for the PDP. To propose a high efficiency PDP driver is getting more and more important. Due to the high voltage driving, the display usually requires special driver different from the one for the LCD. The control timing sequence will be programmed to get the proper resonant condition. High frequency voltage and current condition can be monitored to observe the impedance matching between the driver and the panel. The driver circuit is usually important the successful driving the PDP. Unfortunately, the PDP driver performance is not easy due to the complicated logic timing sequence. A monitoring system combined with digital CPLD controller is developed to test the matching between the driver and PDP.
目錄
指導教授推薦書 i
口試委員會審定書 ii
長庚大學博碩士紙本論文著作授權書 iii
誌謝 iv
中文摘要 v
Abstract vi
目錄 vii
圖目錄 x
表目錄 xiii

第一章 緒論 1
1.1研究目的與動機 1
1.2論文架構 3
1.3內容概述 5

第二章 電漿顯示器簡介 6
2.1電漿顯示器的特點 6
2.2電漿顯示器面板構造 7
2.3電漿顯示器發光原理 9
2.4電漿顯示器的顯像原理 11
2.4.1記憶效應 11
2.4.2顯像原理 13
2.4.3壁電荷植入 14
2.5電漿顯示器系統架構 17
2.6伽瑪曲線 18

第三章 電漿顯示器之能量回復驅動電路探討 22
3.1基本維持週期驅動電路 22
3.2串聯共振型能量回復驅動電路 25
3.3並聯共振型能量回復驅動電路 28
3.4串聯共振型與並聯共振型能量回復驅動電路之比較 31

第四章 新型串聯共振能量回復驅動電路架構 33
4.1電路架構 33
4.2動作原理 35
4.3設計考量 41
4.4硬體電路 42
4.4.1振鈴扼流轉換器 43
4.4.2 CPLD訊號級 47
4.4.3訊號隔離放大級 48
4.5軟體流程 50
4.5.1VHDL簡介 50
4.5.2程式流程說明 51

第五章 實驗結果 53
5.1前言 53
5.2基本維持週期電路實測波形 55
5.3串聯共振能量回復電路實測波形 58
5.4新型串聯共振能量回復電路實測波形 62
5.5效能分析及評估 67
5.5.1 能量消耗評估 67
5.5.2 照度評估 69
5.6伽瑪曲線量測 70

第六章 結論與未來展望 74

參考文獻 76
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