he Driving Circuit Design For Multi-Area Control Method of Color Sequential applying on TFT-LCD RGB LED backlight Module Optimum Power Consumption

he Driving Circuit Design For Multi-Area Control Method of Color Sequential applying on TFT-LCD RGB LED backlight Module Optimum Power Consumption

碩士 === 元智大學 === 電機工程學系 === 96 === In this paper, an optimum power consumption driving circuit is design for multi-area control method of Color Sequential applying on TFT-LCD Display LED backlight module. Use buck converter and boost converter structures design two different-type LED driver circuits,...

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Bibliographic Details
Main Authors: Kuo-Chung Lo, 羅國忠
Other Authors: 許 昕
Format: Others
Language:zh-TW
Published: 2008
Online Access:http://ndltd.ncl.edu.tw/handle/43588224842730207436
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spelling ndltd-TW-096YZU054420422015-10-13T13:48:21Z http://ndltd.ncl.edu.tw/handle/43588224842730207436 he Driving Circuit Design For Multi-Area Control Method of Color Sequential applying on TFT-LCD RGB LED backlight Module Optimum Power Consumption 色序法之多區域演算控制法應用於薄膜液晶顯示器之LED背光模組功耗最佳化驅動電路設計 Kuo-Chung Lo 羅國忠 碩士 元智大學 電機工程學系 96 In this paper, an optimum power consumption driving circuit is design for multi-area control method of Color Sequential applying on TFT-LCD Display LED backlight module. Use buck converter and boost converter structures design two different-type LED driver circuits, and measure the power consumption of two types. Finally, the boost converter structure has lower power consumption, and better than buck converter structure. The power consumption compares with boost converter structure and white light LED both applying on backlight module of 15.4 inch TFT LCD Panel, the boost converter structure can be reduced 20% of backlight power consumption. 許 昕 2008 學位論文 ; thesis 41 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 元智大學 === 電機工程學系 === 96 === In this paper, an optimum power consumption driving circuit is design for multi-area control method of Color Sequential applying on TFT-LCD Display LED backlight module. Use buck converter and boost converter structures design two different-type LED driver circuits, and measure the power consumption of two types. Finally, the boost converter structure has lower power consumption, and better than buck converter structure. The power consumption compares with boost converter structure and white light LED both applying on backlight module of 15.4 inch TFT LCD Panel, the boost converter structure can be reduced 20% of backlight power consumption.
author2 許 昕
author_facet 許 昕
Kuo-Chung Lo
羅國忠
author Kuo-Chung Lo
羅國忠
spellingShingle Kuo-Chung Lo
羅國忠
he Driving Circuit Design For Multi-Area Control Method of Color Sequential applying on TFT-LCD RGB LED backlight Module Optimum Power Consumption
author_sort Kuo-Chung Lo
title he Driving Circuit Design For Multi-Area Control Method of Color Sequential applying on TFT-LCD RGB LED backlight Module Optimum Power Consumption
title_short he Driving Circuit Design For Multi-Area Control Method of Color Sequential applying on TFT-LCD RGB LED backlight Module Optimum Power Consumption
title_full he Driving Circuit Design For Multi-Area Control Method of Color Sequential applying on TFT-LCD RGB LED backlight Module Optimum Power Consumption
title_fullStr he Driving Circuit Design For Multi-Area Control Method of Color Sequential applying on TFT-LCD RGB LED backlight Module Optimum Power Consumption
title_full_unstemmed he Driving Circuit Design For Multi-Area Control Method of Color Sequential applying on TFT-LCD RGB LED backlight Module Optimum Power Consumption
title_sort he driving circuit design for multi-area control method of color sequential applying on tft-lcd rgb led backlight module optimum power consumption
publishDate 2008
url http://ndltd.ncl.edu.tw/handle/43588224842730207436
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AT luóguózhōng hedrivingcircuitdesignformultiareacontrolmethodofcolorsequentialapplyingontftlcdrgbledbacklightmoduleoptimumpowerconsumption
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AT luóguózhōng sèxùfǎzhīduōqūyùyǎnsuànkòngzhìfǎyīngyòngyúbáomóyèjīngxiǎnshìqìzhīledbèiguāngmózǔgōnghàozuìjiāhuàqūdòngdiànlùshèjì
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