Analysis of Rubbing-Angle-Dependent Reflective Fringe-Field Switching Mode
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概要
- 論文の詳細を見る
In the transflective fringe-field switching (FFS) mode with a wide-viewing characteristic, it is essential to match the voltage–reflectance curve with the voltage–transmittance curve. However, the operating voltage in the reflective part is smaller than that in the transmissive part. In addition, the strong fringe field at the edge of pixel electrodes [second indium–tin oxide (ITO)s] results in significant non-uniformity in liquid crystal (LC) director distribution. To increase the operating voltage of the reflective part toward that of the transmissive part, a structure with an increased rubbing angle and resin on pixel electrodes is postulated.
- 2005-10-15
著者
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PARK Jun
SBU Development Center, BOE_TFT_LCD SBU
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Kim Hyang
Sbu Development Center Boe_tft_lcd_sbu
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Kim Seo
Sbu Development Center Boe_tft_lcd_sbu
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Lim Young
Sbu Development Center Boe_tft_lcd_sbu
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Jeong Youn
SBU Development Center, BOE TFT-LCD SBU, San 136-1, Ami-ri, Bubal-eub, Ichon-si, Kyungki-do 467-701, Korea
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Lim Young
SBU Development Center, BOE_TFT_LCD SBU, San 136-1, Ami-ri, Bubal-eub, Ichon-si, Kyungki-do 467-701, Korea
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Park Jun
SBU Development Center, BOE_TFT_LCD SBU, San 136-1, Ami-ri, Bubal-eub, Ichon-si, Kyungki-do 467-701, Korea
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Kim Hyang
SBU Development Center, BOE_TFT_LCD SBU, San 136-1, Ami-ri, Bubal-eub, Ichon-si, Kyungki-do 467-701, Korea
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Park Jun
SBU Development Center, BOE TFT-LCD SBU, San 136-1, Ami-ri, Bubal-eub, Ichon-si, Kyungki-do 467-701, Korea
関連論文
- Novel Structure for Reduced Operating Voltage in Fringe-Field Switching Mode with Negative Liquid Crystal
- The Electro optic Characteristics of Multi-Cell Gap Fringe-Field Switching Mode
- Analysis of Improved Transmittance in Fringe-Field Switching Mode Using Positive Liquid Crystal Incorporated with Chiral Dopant
- A Novel Fringe Field Switching Mode with 3-partition Pixel Slit
- The Electro optic Characteristics of Multi-Cell Gap Fringe-Field Switching Mode
- Study on Reverse Twist Depending on Rubbing Direction for Fringe-Field Switching Mode
- Fringe-Field Switching Mode with Three Electrodes for Low Operating Voltage
- Color Shift Free Newly Two-Domain Fringe-Field Switching Mode
- Dynamic Stability of Disclination Lines in Fringe-Field Switching Mode with a Wedge-Shaped Common Electrode
- Novel Transflective Display with Fringe-Field Switching Mode
- Analysis of Rubbing-Angle-Dependent Reflective Fringe-Field Switching Mode
- Novel Transflective Fringe-Field Switching Mode Using Common Electrode with Box and Slit Shape
- Effect of Horizontal Electric Field Generated by Data Signal on Disclination Lines near Pixel Edge in Fringe Field Switching Mode
- Analysis of Reflective Part with Wide-Band Property in Single Gap Transflective Fringe-Field Switching Mode
- A Novel Fringe Field Switching Mode with 3-partition Pixel Slit
- Novel Structure for Reduced Operating Voltage in Fringe-Field Switching Mode with Negative Liquid Crystal