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研究生:謝憲坤
研究生(外文):Hsien-Kun Hsieh
論文名稱:壓電變壓器應用於冷陰極螢光燈電子安定器之設計
論文名稱(外文):Design of Electronic Ballast with Piezoelectric Transformer for Cold Cathode Fluorescent Lamps
指導教授:莫清賢莫清賢引用關係
指導教授(外文):Chin-Sien Moo
學位類別:碩士
校院名稱:國立中山大學
系所名稱:電機工程學系研究所
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:2002
畢業學年度:90
語文別:中文
論文頁數:74
中文關鍵詞:冷陰極螢光燈壓電變壓器非對稱脈波寬度調變共振換流器
外文關鍵詞:Asymmetrical Pulse-Width-ModulationCold Cathode Fluorescent LampResonant InverterPiezoelectric Transformer
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為減小安定器體積,本文以一含羅森(Rosen)型壓電變壓器之半橋負載共振換流器驅動冷陰極螢光燈。首先,分析對壓電變壓器的工作特性,探討提昇壓電變壓器電壓增益之設計方法;其次,在(1)最小電感、(2)較高電路轉換效率、(3)壓電變壓器之額定輸入限制以及(4)螢光燈穩定操作等考量下,進行電路之分析研究;分別針對額定功率與非對稱脈波寬度調變調光控制兩種應用方式設計電路參數;最後,並以實驗驗證理論分析之結果。


To minimize the size of the electronic ballast, a half-bridge load- resonant inverter with a cascading Rosen-type piezoelectric transformer (PT) is designed for cold cathode fluorescent lamps (CCFLs). The electrical characteristics of the PT are investigated to obtain a higher voltage gain by adapting the load impedance to the interposed network. The circuit parameters are selected under the considerations of (1) the minimum inductor size, (2) the higher circuit efficiency, (3) the rated current of the PT, and (4) the stable lamp operation.
The electronic ballasts are designed for operating the lamp at the rated lamp power and with dimming control by asymmetrical pulse-width-modulation (APWM),respectively. Laboratory circuits are assembled and, experimental tests are carried out to validate the theoretical analyse


第一章簡介 1
1-1研究背景與動機 1
1-2論文大綱 6
第二章壓電變壓器特性分析 7
2-1壓電變壓器之等效模型與特性 7
2-1-1發展歷程與簡介7
2-1-2壓電變壓器之等效電路模型9
2-1-3壓電變壓器等效電路參數之量測11
2-1-4壓電變壓器等效電路模型之實測13
2-2 並聯電容對壓電變壓器之影響 15
2-3 一二次側跨接電容對壓電變壓器之影響 20
2-4討論24
2-5實驗波形量測27
第三章額定功率下驅動冷陰極螢光燈 29
3-1電路架構與等效電路 29
3-2電路分析 32
3-3判斷電路穩定之方法 33
3-3-1負增量電阻的特性 34
3-3-2電流控制型負增量電阻的電路穩定特性 35
3-3-3公式推演37
3-4電路參數設計39
3-4-1燈管模型之建立39
3-4-2壓電變壓器輸出端之並聯電容CL 41
3-4-3取決安定器電路之工作頻率41
3-4-4共振電感Lr與共振電容Cr 42
3-4-5穩定下最小電感體積之考量44
3-5電路模擬分析45
3-5-1模擬電路45
3-5-2模擬結果46
3-6實驗波形量測49
第四章調光特性分析 53
4-1脈波寬度調變(PWM)調光控制53
4-2 調光分析 54
4-3穩定下與調光範圍內共振參數之取決58
4-4實驗波形與量測62
4-4-1非對稱脈波寬度調變(APWM)控制電路62
4-4-2實測結果64
第五章結論與討論 70
第六章參考文獻 72


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