跳到主要內容

臺灣博碩士論文加值系統

(34.204.180.223) 您好!臺灣時間:2021/07/31 18:20
字體大小: 字級放大   字級縮小   預設字形  
回查詢結果 :::

詳目顯示

我願授權國圖
: 
twitterline
研究生:陳岡見
研究生(外文):Gang-Jiaqg Chen
論文名稱:新型冷陰極螢光燈電子安定器之設計與研製
論文名稱(外文):Design and implementation of a new electronic ballast for CCFL
指導教授:潘晴財
指導教授(外文):Ching-Tsai Pan
學位類別:碩士
校院名稱:國立清華大學
系所名稱:電機工程學系
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:2004
畢業學年度:92
語文別:中文
論文頁數:102
中文關鍵詞:冷陰極螢光燈電子安定器單級升壓型反流器叢發式調光控制整合型迴授控制器穩定性分析
外文關鍵詞:CCFL
相關次數:
  • 被引用被引用:2
  • 點閱點閱:83
  • 評分評分:
  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:0
由於液晶顯示器的快速發展,薄膜電晶體之液晶顯示器(TFT-LCD)將取代陰極射線管(CRT)成為桌上型電腦和電視這兩個最大顯示器市場的主流產品,當然有關於液晶顯示器背光模組採用的冷陰極螢光管之使用量亦隨之大增,為此各類相關電子安定器之研究紛至沓來;就目前所採用的冷陰極螢光燈的電子安定器之架構來看,不僅無法承受輸入電源之廣範圍變動,且亦存在開關數目較多以致增加成本之缺點,因此本論文即為此提出一新型單級升壓型冷陰極螢光燈電子安定器以改善上述之缺點。

基本上本論文之主要貢獻有四點:第一點,提出一新型單級升壓型冷陰極螢光燈電子安定器,可以承受更大的輸入電壓之變動範圍俾方便不同輸入電源之使用,改善傳統電子安定器在廣範圍輸入電壓變動時之效能。新型電子安定器為單級式,且所使用開關數目亦只有兩個,因此具有控制簡單、低成本、高效率等優點。第二點,提出一系統化設計方法,可以方便且清楚的決定各個工作點與功率級元件參數值,以改善傳統試誤法之費時費力的缺點。第三點,提出一整合型迴授控制器,可以有效控制新型電子安定器;推演出小信號模型,可藉以決定控制器的參數值與分析其穩定度。第四點,更進一步整合一叢發式調光控制器以解決冷陰極螢光管的溫度計效應,可以獲得寬廣的調光範圍。經由模擬分析與實驗結果證實,本論文所提之新型單級升壓型冷陰極螢光燈電子安定器確能達到預期之高性能低成本目標。
Due to the rapid progress of liquid crystal display (LCD), the thin film transistor (TFT) LCD market has a remarkable increase. Naturally, the corresponding necessity of the electronic ballast for the cold cathode fluorescent lamp (CCFL) as the backlight module of the LCD will increase greatly as well.
As a result, many related researches are undergoing to enhance the performance and reduce the cost of the ballast. In view of the above objectives, a novel single stage ballast topology is first proposed in this thesis such that much wider input DC voltage range can be tolerated to allow the application of different energy sources. In addition, instead of using four active power semiconductor switches, only two are required in the new topology. Hence, better efficiency and lower cost can be achieved. In addition, a design methodology is also proposed in this thesis to provide a systematic approach for designing the ballast. By this way, the conventional try and error approach can be obviated. Thirdly, an integrated closed loop controller is proposed for stabilizing the new ballast. A small signal model is also delved for derived the proper parameters of the controller without losing the stability. Finally, a burst mode dimming controller is also integrated for adjusting the light intensity with full range without incurring any temperature phenomenon. A hardware prototype is also constructed for demonstrating the feasibility of the proposed single stage ballast for the CCFL.
[1]J.A.Donahue, and M. M. Jovanovic, “The LCC inverter as
a cold cathode fluorescent lamp driver,” IEEE Applied
power Electronics Conference and Exposition, Vol.
1,pp.472-431,1994.
[2]M. Jordan, and J. A. O’Connor, “Resonant fluorescent
lamp converter provides efficient and compact
solution,” IEEE Applied power Electronics Conference
and Exposition, pp. 424-431, 1993.
[3]L. H. Hwang, J. H. Yoo, B. H. Lee, E. S. Jang, and M. T.
Cho, “Modeling of piezoelectric transformer and CCFL
and PSPICE,” IEEE International Conference on Power
System Technology, Vol. 4,pp. 2664-2668, 2002.
[4]M. Sun, and B. L. Hesterman, “PSpice High-Frequency
Dynamic Fluorescent Lamp Model,” IEEE Transactions on
Power Electronics, Vol. 13, pp. 261- 272, March 1998.
[5]廖益弘,『壓電式螢光燈電子安定器之研製』,清華大學碩士論
文,中華民國八十九年七月。
[6]魏慶德,『高性能壓電型冷陰極螢光管驅動器』,清華大學博士
論文,中華民國九十二年四月。
[7]Gie Hyoun Kweon, Young Cheol Lim, and Seung Hak Yang,
“Analysis of the backlight inverter by topologies,”
IEEE International Symposium on Industrial Electronics,
Vol. 2 , 12-16, pp 896 – 900, June 2001.
[8]C. Branas, F. J. Azcondo, and S. Bracho, “Pulsewidth
modulation control of electronic ballast for dimming
control of fluorescent lamps,” Proceedings of the IEEE
International Symposium on Industrial Electronics, Vol
2, 7-11, pp 537 – 542, July 1997.
[9]M. K. Kazimierczuk, and W. Szaraniec, “ Electronic
ballast for fluorescent lamps,” IEEE Transactions on
Power Electronics, Vol 8 , pp 386 – 395, Oct 1993.
[10]K. Shimizu, and H. Matsuo, “ Input current analysis of
the modified half bridge inverter as electronic ballast
for fluorescent lamps,” Power Electronics Specialists
Conference, Vol 2, 17-21, pp 683 – 687, June 2001.
[11]M. S. Lin, M. C. Lee, D. Y. Chen, and W. S. Feng, “
Synchronous dimming control for a cold-cathode
fluorescent lamp driver,” Electronics Letters , Vol
32 ,pp 1151 – 1153, June 1996.
[12]Weiyun Chen, “Series-parallel resonant forward
inverter as a cold cathode fluorescent lamp (CCFL)
driver,” Applied Power Electronics Conference and
Exposition, Vol 2, 10-14, pp 943 – 947, March 2002.
[13]Y. L .Lin, and A. F. Witulski, “ Analysis and design
of current-fed push-pull resonant inverters-cold cathode
fluorescent lamp drivers,” Industry Applications
Conference, Vol 4, 6-10,pp 2149 – 2152, Oct 1996.
[14]Mu-Shen Lin, and Jan-Bin Lio, D. Y.Chen, Wu-Shiung
Feng, “ Primary-side dimming control driver for cold-
cathode fluorescent lamps,” Electronics Letters, Vol
32, pp 1334 – 1335, July 1996.
[15]Mu-Shen Lin, Wen-Jung Ho, Fu-Yuan Shih, Dan Y. Chen,
and Yan-Pei Wu, “ A cold-cathode fluorescent lamp
driver circuit with synchronous primary-side dimming
control,” IEEE Transactions on Industrial Electronics,
Vol 45, pp 249 – 255, April 1998.
[16]K. H. Edelmoser and F. A. Himmelstoss, “Analysis of a
new high-efficiency DC-to-AC inverter,” IEEE
Transactions on Power Electronics, vol. 14, pp. 454-460,
May 1999.
[17]N. Kasa, T. Iida and H. Iwamoto, “An inverter using
buck-boost type chopper circuits for popular small-scale
photovoltaic power system,” The 25th Annual Conference
of the IEEE Industrial Electronics Society, vol. 1, pp.
185-190, 1999.
[18]N. Kasa, H. Ogawa, T. Iida and H. Iwamoto, “A
transformer-less inverter using buck-boost type chopper
circuit for photovoltaic power system,” Proceedings of
the IEEE 1999 International Conference on Power
Electronics and Drive Systems, vol. 2, pp. 653-658, 1999.
[19]N. Kasa, T. Lida and H. Iwamoto, “Maximum power point
tracking with capacitor identifier for photovoltaic
power system,” IEE Proceedings-Electric Power
Applications, vol. 147, pp. 497-502, Nov. 2000.
[20]C. Y. Hsu, “Stability analysis of a switched mode
inverter using C’uk converters,” IEEE Power
Electronics Specialists Conference, pp. 785-795, 1994.
[21]Chao Su, Lian-Kuan Chen, and Kwok-Wai Cheung, “ Theory
of burst-mode receiver and its applications in optical
multiaccess networks,” Journal of Lightwave
Technology,Vol. 15, pp 590 – 606, April 1997.
[22]Y. Yamada, S. Mino, and K. Habara, “ Ultra-fast clock
recovery for burst-mode optical packet communication,”
International Conference on Integrated Optics and
Optical Fiber Communication Conference, Vol, 1,pp 114-
116, 21-26 Feb 1999.
[23]E. Sackinger, Y. Ota, T. J. Gabara, and W. C. Fischer,
“ A 15-mW, 155-Mb/s CMOS burst-mode laser driver with
automatic power control and end-of-life detection,”
IEEE Journal of Solid-State Circuits, Vol 35, pp 269 -
275, Feb 2000.
[24]Chin-Der Wey, Tai-Lang Jong, and Ching-Tsai Pan, “
Design and analysis of an SLPT-based CCFL driver,”
IEEE Transactions on Industrial Electronics, Vol. 50,
pp 208 - 217, Feb 2003.
[25]M. K. Nalbant, “ A new CCFL inverter circuit far AMLCD
panels results in significantly higher efficiency and
brightness Active Matrix Liquid Crystal Displays,”
Second International Workshop on AMLCDs '95,pp 133 –
136, Sept 1995.
[26]K. Yuasa, K. Nishimura, Y. Hara, and Y. Dobashi,” A
low power consumption fluorescent lamp for LCD
backlighting Plasma Science,” IEEE International
Conference on Record – Abstracts, pp 124, June 1996.
[27]Y. Ishizuka, K.-W. Lee, T. Oyama, H. Matsuo, and T.
Koga, “ Consideration of a single-switch inverter for
piezoelectric transformer with a new control method,”
IEEE 34th Annual Conference on Power Electronics
Specialist, Vol. 4, pp 1621 - 1626, June 2003.
[28]L. H. Hwang, J. H. Yoo, B. H. Lee, J. R. Kim, E. S.
Jang, M. T. Cho, I. S. Ahn, H. J. Joo, and J. S. Kim,
“ MATLAB and PSPICE micro-modeling of piezoelectric
transformer for CCFL drive,” Proceedings of the 13th
IEEE International Symposium on Applications of
Ferroelectrics, Vol. 28, pp 281 – 285, May-1 June 2002.

[29]L. H. Hwang, J. H. Yoo, B. H. Lee, E. S. Jang, and M.
T. Cho, “ Modeling of piezoelectric transformer and
CCFL by PSPICE,” International Conference on Power
System Technology, Vol. 4, pp 2664 – 2668, Oct 2002.
[30]Weiyun Chen, “Series-parallel resonant forward
inverter as a cold cathode fluorescent lamp (CCFL)
driver,” Applied Power Electronics Conference and
Exposition, Vol. 2, pp 943 – 947, March 2002.
[31]C. S. Moo, W. M. Chen, and H. K. Hsieh,” An electronic
ballast with piezoelectric transformer for cold cathode
fluorescent lamps,” IEEE International Symposium on
Industrial Electronics, Vol. 1, pp 36 – 41, June 2001.
[32]Wei-Chung Cheng, and M. Pedram, “ Power minimization
in a backlit TFT-LCD display by concurrent brightness
and contrast scaling,” IEEE Transactions on Consumer
Electronics, Vol. 50, pp 25 - 32, Feb 2004.
[33]Cherl-Jin Kim, Jae-Geun Ji, and Shin-Yong Yoon, “ A
study on the design and performance of electronic
ballast for ccfl dimming control with frequency
modulation,” International Conference on Electrical
Machines and Systems, Vol. 1, pp 453 - 456, Nov 2003.
[34]C. S. Moo, W. M. Chen, and H. K. Hsieh, “ Electronic
ballast with piezoelectric transformer for cold cathode
fluorescent lamps,” IEE Proceedings Electric Power
Applications, Vol. 150 , pp 278 - 282, May 2003.
[35]Guangsup Cho; Y. S. Kim, D. H. Lee, W. Lee, J.W. Hong,
D. W. Yang, Y.G. Kim, J. G. Kang, B. S. Kim, E. H.
Choi, and H. S. Uhm,” Influence of auxiliary
discharges on a multi-lamps backlight for large area
LCD TVs Plasma Science,” The 30th International
Conference on IEEE Conference Record - Abstracts, pp
137, June 2003.
[36]D.Klien, “ A sensing and regulation concept for high
end dimming ballasts,” Conference Record of the
Industry Applications, Vol. 2, pp 785 - 790, 12-16, Oct
2003.
[37]C.S.Moo,W.M. Chen, and H.C.Yen, “ A series-resonant
electronic ballast for rapid-start fluorescent lamps
with programmable starting,” Proceedings of the Power
Conversion Conference, Vol. 1, pp 95 – 99, April 2002.
[38]O. Montero, D. Baez, F. Alvarez, R. Alejos, and G.E.
Flores-Verdad, “ Simulation and experimental results
for a compact fluorescent lamp with electronic
adapter,”Proceedings of the 38th Midwest Symposium on
Circuits and Systems, Vol. 1, pp 216 – 218, 13-16, Aug
1995.
[39]Fang Zheng Peng, “ Z-source inverter.” IEEE
Transactions on Industry Applications, Vol. 39, pp 504-
510, March-April 2003.
[40]L. Grajales, and F. C. Lee, “ Control system design
and small-signal analysis of a phase-shift-controlled
series-resonant inverter for induction heating,” Power
Electronics Specialists Conference, Vol. 1, pp 450 –
456, 18-22 June 1995.
QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top