| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | 显示装置及显示板 | CN201010198270.X | 2010-06-04 | CN101907811A | 2010-12-08 | 小川贤 |
| 本发明的目的在于提供一种能够防止或抑制显示层的破损并同时显示鲜明的图像(所期望的图像)的显示装置及显示板。显示装置(100)具有:电极层(公共电极)(320);显示层(230),其设置在电极层(320)上,且具有包含带正电的第一粒子(带正电粒子)A及带负电的第二粒子(带负电粒子)B中的至少一方的收容部(微囊体)(231);膜(第一保护膜)(210),其设置在显示层(230)上;电极部(局部电极)(330),其能够从膜(210)之上对显示层(230)的局部区域施加电压,且能够移动。膜(210)是膜(210)的平面方向的电导率比厚度方向的电导率低的导电膜。 | ||||||
| 82 | 显示装置 | CN200910136433.9 | 2009-05-08 | CN101661723A | 2010-03-03 | 李昌洙; 裵有汉 |
| 一种显示装置,包括栅极驱动器、数据驱动器、显示面板、电源和公共电压线。栅极驱动器输出选通信号,而数据驱动器输出数据信号。显示面板包括响应于选通信号和数据信号显示图像的显示区域和围绕显示区域的外围区域。电源产生公共电压并将公共电压提供至显示面板。公共电压线布置在围绕显示区域的外围区域内。而公共电压线具有两个邻近电源的端。两个端中的一个布置得离栅极驱动器更远,连接至电源以接收公共电压。从而,根据公共电压线的长度,有差别地施加公共电压。 | ||||||
| 83 | 滤色片基板及其制造方法 | CN200610083668.2 | 2006-06-02 | CN100434947C | 2008-11-19 | 尹湘淳 |
| 本发明涉及一种滤色片基板包括:基板、在基板上限定单元区域并防止光泄漏的黑矩阵、形成在黑矩阵限定的单元区域内的滤色片;和形成在基板后表面上用于防止静电产生的导电薄膜,其中导电薄膜由包含导电材料的光刻胶形成的。 | ||||||
| 84 | 液晶显示装置以及用于将液晶显示装置接地的方法 | CN200710161983.7 | 2007-09-27 | CN101153988A | 2008-04-02 | 佐藤晶英 |
| 本发明公开了一种液晶显示装置,包括:液晶显示面板;偏振片,其被加工成导电的,且被附着到液晶显示面板的表面上;以及导电框架,其中该偏振片包括从液晶显示面板的边缘向外突起的突起区域,并且其中该导电框为了将偏振片接地而按压偏振片的突起区域。而且也公开了一种用于将液晶显示装置接地的方法。 | ||||||
| 85 | DISPLAY BASE PLATE, DISPLAY PANEL AND DISPLAY DEVICE | EP14861113 | 2014-09-05 | EP3156841A4 | 2018-04-18 | JIAO ZHIQIANG; SUN LI |
| A display substrate, a display panel and a display device are disclosed. The display substrate includes: a base substrate (1), and a color film structure (2) and a transparent conductive oxide film layer (3) subsequently laminated on the base substrate (1). The color film structure (2) includes a plurality of color filter units arranged in a matrix and having different colors; at least one color of the color filter units in the color film structure (2) includes at least two layers of laminated color filter films, refractive indices of the color filter films gradually increase in a direction from the base substrate (1) towards the transparent conductive oxide film layer (3), and one layer of the color filter films adjacent to the base substrate (1) has refractive index larger than that of the base substrate (1), one layer of the color filter films adjacent to the transparent conductive oxide film layer (3) has refractive index less than that of the transparent conductive oxide film layer (3). The display substrate reduces the loss of light transmitted in the display panel, and thus the display brightness of the display device is increased. | ||||||
| 86 | LIQUID CRYSTAL DISPLAY DEVICE | EP17198223 | 2014-02-03 | EP3296809A1 | 2018-03-21 | KIMURA YUKIHIRO; FUKUYOSHI KENZO |
| A liquid crystal display device includes: a display unit (110, 111, 112, 113) having a display substrate (22, 22A, 22B), an array substrate (23) and a liquid crystal layer (24), and a control unit (120). The display substrate (22, 22A, 22B) is composed of light absorbing resin layer patterns (1) containing a black material, copper alloy film patterns (2), a transparent resin layer (5) and transparent electrode patterns (6) laminated in this order. The array substrate (23) includes a metal wiring (40), pixel electrodes (25), thin film transistors (45) and an insulation layer (28). The light absorbing resin layer patterns (1) and the copper alloy film patterns (2) are formed in an identical pattern being overlapped with each other. The copper alloy film patterns (2) are arranged in a first direction (X) to be insulated from each other. The transparent electrode patterns (6) are arranged in a second direction (Y) to be insulated from each other. An auxiliary conductor (16) is provided on the plurality of transparent electrode patterns (6), the auxiliary conductor (16) having a resistivity lower than that of each of the plurality of transparent electrode patterns (6). The control unit drives liquid crystals and detects a change in an electrostatic capacitance in a time sharing manner. | ||||||
| 87 | PROCESSES FOR THE PRODUCTION OF ELECTRO-OPTIC DISPLAYS | EP13822993.5 | 2013-07-25 | EP2877895B1 | 2017-09-06 | KAYAL, Matthew Joseph; BATTISTA, Stephen Joseph; PAOLINI, Richard J. Jr.; SUBRAMANIAN, Shyamala A. |
| 88 | ARRAY SUBSTRATE, PREPARATION METHOD THEREFOR, AND DISPLAY DEVICE | EP15897380.0 | 2015-12-31 | EP3171214A1 | 2017-05-24 | ZHANG, Feng |
An array substrate, a manufacturing method thereof and a display device are disclosed. The array substrate includes: a substrate (100); a plurality of pixel units provided on the substrate (100), each of the pixel units including a plurality of functional layers; and a light shielding assembly (11) arranged between adjacent pixel units. The light shielding assembly (11) including: a light shielding layer (11a); a light absorption layer (11b) overlaid on the light shielding layer (11a); and an antireflection layer (11c) overlaid on the light absorption layer (11b). By means of providing an antireflection layer (11c) in the light shielding assembly (11), it can decrease the reflection of the external ambient light on the light shielding assembly (11), thereby improving the display contrast and the image display quality. |
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| 89 | LIQUID CRYSTAL DISPLAY | EP09798144.3 | 2009-07-17 | EP2306237B1 | 2015-10-07 | KIM, Se Ra; JO, Jung Sik; PARK, Mun Gi; KIM, Kee Young; HAN, In Cheon |
| 90 | PROCESSES FOR THE PRODUCTION OF ELECTRO-OPTIC DISPLAYS | EP13822993.5 | 2013-07-25 | EP2877895A1 | 2015-06-03 | KAYAL, Matthew Joseph; BATTISTA, Stephen Joseph; PAOLINI, Richard J. Jr.; SUBRAMANIAN, Shyamala A. |
| Electrical connection between the backplane and the front electrode of an electro-optic display is provided by forming a front plane laminate (100) comprising, in order, a light-transmissive electrically-conductive layer (104), a layer of electro-optic material (106), and a layer of lamination adhesive (108); forming an aperture (114) through all three layers of the front plane laminate (100); and introducing a flowable, electrically-conductive material (118) into the aperture (114), the flowable, electrically-conductive material being in electrical contact with the light-transmissive electrically-conductive layer (104) and extending through the adhesive layer (108). | ||||||
| 91 | LIQUID CRYSTAL DISPLAY | EP09798144 | 2009-07-17 | EP2306237A4 | 2014-03-19 | KIM SE RA; JO JUNG SIK; PARK MUN GI; KIM KEE YOUNG; HAN IN CHEON |
| 92 | ADHESIVE TRANSFER METHOD OF CARBON NANOTUBE LAYER | EP06849701.5 | 2006-02-08 | EP1853423A2 | 2007-11-14 | IRVIN, Glen Clifford Jr.; MAJUMDAR, Debasis; ANDERSON, Charles Chester; ROWLEY, Lawrence A.; FREEDMAN, Gary Scot |
| The present invention relates to a donor laminate for adhesive transfer of a conductive layer comprising a substrate having thereon a conductive layer comprising carbon nanotubes, in contact with said substrate. | ||||||
| 93 | Light-scattering film and optical device using the same | EP05111652.3 | 2005-12-02 | EP1670065A1 | 2006-06-14 | Kobayashi, Yasuyuki Mitsubishi Heavy Ind., Ltd.; Sakai, Satoshi Mitsubishi Heavy Ind., Ltd.; Satake, Koji Mitsubishi Heavy Ind., Ltd. |
A light scattering film (2) having the structure which guides electrical signal to a desired position and scatters incident light and the surface of which is substantially flat, and a photoelectric device using the same. The light scattering film (2) includes a medium (6) made of transparent conductive material and a light scatterer (7) embedded in the medium. The light scattering film realizes conductivity and the light-scattering characteristic by single component. It is not necessary to make the texture of a surface with concavity and convexity deliberately to achieve the light-scattering characteristic. Desirably, the surface is substantially flat. When a semiconductor layer (3) is formed on the surface, the defects are suppressed because of the flatness of the surface. The photoelectric device having the light scattering film and the semiconductor device on the surface of the film can achieve high photoelectric conversion efficiency.
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| 94 | LIQUID CRYSTAL DISPLAY DEVICE | EP16207037.9 | 2016-12-28 | EP3316023A1 | 2018-05-02 | Lim, Jong-Hoon; Kim, Do-Yeon; Lee, Tae-Rim; Lee, Sung-Won; Kim, Sun-Yoon |
A liquid crystal display device includes a first substrate; a thin film transistor on the first substrate; a first passivation layer on the thin film transistor; a first electrode on the first passivation layer; a second passivation layer on the first electrode; a second electrode of an oxide semiconductor on the second passivation layer; and an alignment layer on the second electrode, wherein the second electrode includes first portions and second portions, and the second portions have a conductor property.
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| 95 | LIQUID CRYSTAL DISPLAY DEVICE | EP14860125 | 2014-02-03 | EP3070519A4 | 2017-07-12 | KIMURA YUKIHIRO; FUKUYOSHI KENZO |
| A liquid crystal display device includes: a display unit having a display substrate, an array substrate and a liquid crystal layer, and a control unit. The display substrate is composed of light absorbing resin layer patterns containing a black material, copper alloy film patterns, a transparent resin layer and transparent electrode patterns laminated in this order. The array substrate includes a metal wiring, pixel electrodes, thin film transistors and an insulation layer. The light absorbing resin layer patterns and the copper alloy film patterns are formed in an identical pattern being overlapped with each other. The copper alloy film patterns are arranged in a first direction to be insulated from each other. The transparent electrode patterns are arranged in a second direction to be insulated from each other. The control unit drives liquid crystals and detects a change in an electrostatic capacitance in a time sharing manner. | ||||||
| 96 | LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF | EP16182219.2 | 2016-08-01 | EP3173861A1 | 2017-05-31 | Lee, Jeong Ho; Kim, Dong Wook; Lee, Sun Jin; Song, Jean Ho |
A liquid crystal display,LCD, device, comprising: a substrate (110), gate wiring (GW: GE, GL) including a gate line (GL) that is disposed on the substrate (110) to extend in a first direction (d1) and a gate electrode (GE) that is connected to the gate line (GL), a data conductor (DL1; DL2) disposed on the gate wiring (GW) and including a data line (DL1) that extends in a second direction (d2) different from the first direction (d1), and a drain electrode (140b) that overlaps the gate electrode (GE), a common electrode (CE) disposed on the data conductor (DW) and including a first opening (OP1) that partially exposes the drain electrode (140b) therethrough, an opaque conductive pattern (BM) disposed on the common electrode (CE); and a pixel electrode (PE) disposed on the opaque conductive pattern (BM) and electrically connected to the drain electrode (140b) exposed through the first opening (OP1).
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| 97 | ELECTRONIC PRINTABLE MEDIUM, ELECTRONIC PRINT DEVICE, AND METHOD FOR PRINTING ON ELECTRONIC PRINTABLE MEDIUM | EP11855140 | 2011-12-07 | EP2618210A4 | 2016-04-06 | HIGUCHI MASAYOSHI; ZHANG JIAN |
| The present invention relates to an electronic printable medium containing a conductive sheet-shaped member and an organic-metallic hybrid polymer which has been deposited on the conductive sheet-shaped member. According to the present invention, it is possible to provide an electronic paper having excellent properties such as productivity with low cost, availability of an ultrathin electronic paper and availability of a multi-color printing. | ||||||
| 98 | Array substrate, display panel and method of manufacturing the array substrate | EP13183464.0 | 2013-09-09 | EP2711769B1 | 2016-02-24 | Deng, Jiang |
| 99 | Liquid Crystal Shutter and Image Capturing Apparatus | EP13187663.3 | 2013-10-08 | EP2723080A1 | 2014-04-23 | Shim, Jae-kyu; Koo, Bon-min; Ham, Yu-kyung; Lee, Kun-woo; Cho, Woo-jong |
A liquid crystal shutter includes: a first plate (110) including a first transparent electrode layer (113), a second plate (120) disposed parallel to the first plate and including a second transparent electrode layer (123), a liquid crystal layer (130) disposed between the first plate and the second plate and is configured to transmit or block light according to a first potential difference between the first transparent electrode layer and the second transparent electrode layer, and a heating electrode (170) configured to generate a second potential difference for generating Joule heating in the first transparent electrode layer.
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| 100 | Array substrate, display panel and method for manufacturing array substrate | EP13183464.0 | 2013-09-09 | EP2711769A1 | 2014-03-26 | Deng, Jiang |
An array substrate comprises a plurality of pixel units, and each pixel unit comprises a thin film transistor (TFT), a transparent conductive metal layer (25) and a pixel electrode (24); the TFT includes a gate electrode (11), an active layer (23), a source electrode (15) and a drain electrode (16); the active layer is disposed above or below the gate electrode; the transparent conductive metal layer makes contact with the active layer; and a channel of the active layer is defined by the source electrode and the drain electrode. A display panel and a method for manufacturing the array substrate are also disclosed.
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