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    • 3. 发明授权
    • Method for eliminating flickers of liquid crystal display
    • 消除液晶显示器闪烁的方法
    • US07423620B2
    • 2008-09-09
    • US10964803
    • 2004-10-13
    • Tean-Sen JenMing-Tien LinDeuk-Su LeeTa-Wei Tseng
    • Tean-Sen JenMing-Tien LinDeuk-Su LeeTa-Wei Tseng
    • G09G3/36G02F1/1343
    • G02F1/136213G09G3/3648G09G2310/0232G09G2320/0223G09G2320/0247
    • The screen of a liquid crystal display is first divided into a compensation portion, a compensation transition portion and a non-compensation portion in a sequence arranged along the scanning line. Then storage capacitor areas of the pixels in the non-compensation portion are made equal, whereas the difference between the storage capacitor area of the pixel in the compensation portion and that in the non-compensation portion is set to one constant basic compensation area. Afterward, the average of the storage capacitor areas of the pixels on each data line in the compensation transition portion progressively varies along the scanning line, where the average is greater than or equal to any of the storage capacitor areas of the pixels in the non-compensation portion. The direction of the scanning line is designated as either the direction in which scanning signals are transmitted or the direction opposite thereto.
    • 液晶显示器的屏幕首先按沿扫描线排列的顺序分为补偿部分,补偿过渡部分和非补偿部分。 然后使非补偿部分中的像素的存储电容器区域相等,而补偿部分中的像素的存储电容器面积与非补偿部分中的像素的存储电容器面积之间的差被设置为一个恒定的基本补偿区域。 之后,补偿过渡部分中的每个数据线上的像素的存储电容器区域的平均值沿着扫描线逐渐变化,其中平均值大于或等于非易失性存储器中的像素的任何存储电容器区域, 补偿部分。 扫描线的方向被指定为扫描信号传输的方向或与其相反的方向。
    • 4. 发明申请
    • Method for eliminating flickers of liquid crystal display
    • 消除液晶显示器闪烁的方法
    • US20050264517A1
    • 2005-12-01
    • US10964803
    • 2004-10-13
    • Tean-Sen JenMing-Tien LinDeuk-Su LeeTa-Wei Tseng
    • Tean-Sen JenMing-Tien LinDeuk-Su LeeTa-Wei Tseng
    • G09G3/36
    • G02F1/136213G09G3/3648G09G2310/0232G09G2320/0223G09G2320/0247
    • The screen of a liquid crystal display is first divided into a compensation portion, a compensation transition portion and a non-compensation portion in a sequence arranged along the scanning line. Then storage capacitor areas of the pixels in the non-compensation portion are made equal, whereas the difference between the storage capacitor area of the pixel in the compensation portion and that in the non-compensation portion is set to one constant basic compensation area. Afterward, the average of the storage capacitor areas of the pixels on each data line in the compensation transition portion progressively varies along the scanning line, where the average is greater than or equal to any of the storage capacitor areas of the pixels in the non-compensation portion. The direction of the scanning line is designated as either the direction in which scanning signals are transmitted or the direction opposite thereto.
    • 液晶显示器的屏幕首先按沿扫描线排列的顺序分为补偿部分,补偿过渡部分和非补偿部分。 然后使非补偿部分中的像素的存储电容器区域相等,而补偿部分中的像素的存储电容器面积与非补偿部分中的像素的存储电容器面积之间的差被设置为一个恒定的基本补偿区域。 之后,补偿过渡部分中的每个数据线上的像素的存储电容器区域的平均值沿着扫描线逐渐变化,其中平均值大于或等于非易失性存储器中的像素的任何存储电容器区域, 补偿部分。 扫描线的方向被指定为扫描信号传输的方向或与其相反的方向。
    • 7. 发明申请
    • Liquid crystal display panel with reduced flicker
    • 液晶显示面板减少闪烁
    • US20050018121A1
    • 2005-01-27
    • US10848243
    • 2004-05-17
    • Tean-Sen JenPeter LiaoMing-Tien Lin
    • Tean-Sen JenPeter LiaoMing-Tien Lin
    • G02F1/1345
    • G09G3/3611G02F1/1345G09G2300/0426G09G2320/0223
    • A liquid crystal display panel with reduced flicker comprises an active matrix substrate equipped with a plurality of thin film transistors. The active matrix substrate has an active area that is formed with a plurality of first signal lines and a plurality of second signal lines crossing each other. The active area includes a plurality of pixels arranged in a matrix. There are outer-lead bonding areas around the active area. There are a plurality of pad areas within the outer-lead bonding areas. A plurality of second wires arranged in a fan-out configuration extend from the pad areas and stretch toward the active area. The second wires are connected to their respective first signal lines by their serpentine or zigzag routes resulting in various wire lengths. A frame-like lead overlaps the second wires, and a capacitor exists between each of the second wires and the closed frame-like lead. The induced capacitor and the resistance of the corresponding second wire together result in a compensation effect so as to uniform the time constants of the plurality of first signal lines.
    • 具有减少的闪烁的液晶显示面板包括配备有多个薄膜晶体管的有源矩阵基板。 有源矩阵基板具有形成有多个第一信号线和彼此交叉的多个第二信号线的有源区域。 有源区域包括以矩阵形式布置的多个像素。 有源区域周围有外引线接合区域。 在外引线接合区域内有多个焊盘区域。 以扇出配置布置的多个第二布线从焊盘区域延伸并朝向有效区域拉伸。 第二根线通过其蛇形或锯齿形路线连接到它们各自的第一信号线,导致各种线长度。 框架状引线与第二导线重叠,并且在每个第二导线和封闭的框架状引线之间存在电容器。 感应电容器和对应的第二导线的电阻在一起导致补偿效应,以使多个第一信号线的时间常数均匀。
    • 9. 发明授权
    • Transparent conductive film and touch panel using the same
    • 透明导电膜和触摸屏使用相同
    • US08742261B2
    • 2014-06-03
    • US13340084
    • 2011-12-29
    • Ming-Tien LinPo-Sheng Shih
    • Ming-Tien LinPo-Sheng Shih
    • H05K1/09H05K1/11B82Y99/00
    • H05K1/097B82Y30/00H05K1/0289H05K2201/0108
    • A transparent conductive film includes a number of first transparent conductive stripes extending along a first direction and a number of second transparent conductive stripes extending along a second direction and intersecting the number of first transparent conductive stripes. The first conductive stripes are spaced from each other and extend substantially along a first direction. The second transparent conductive stripes are spaced from each other and extend substantially along a second direction. The first transparent conductive stripes are electrically connected with the second transparent conductive stripes. The first transparent conductive stripes and the second conductive stripes are arranged in patterns such that the transparent conductive film has an anisotropic impedance. The first direction is a low impedance direction. A resistivity of the transparent conductive film in the low impedance direction is smaller than the resistivity of the transparent conductive film in the second direction and any other direction.
    • 透明导电膜包括沿着第一方向延伸的多个第一透明导电条和沿着第二方向延伸并且与第一透明导电条的数量相交的多个第二透明导电条。 第一导电条彼此间隔开并且基本沿第一方向延伸。 第二透明导电条彼此间隔开并基本沿第二方向延伸。 第一透明导电条与第二透明导电条电连接。 第一透明导电条和第二导电条布置成图案,使得透明导电膜具有各向异性阻抗。 第一个方向是低阻抗方向。 透明导电膜在低阻抗方向的电阻率小于透明导电膜在第二方向和任何其它方向上的电阻率。
    • 10. 发明申请
    • PIXEL STRUCTURE OF A DISPLAY PANEL
    • 显示面板的像素结构
    • US20100059758A1
    • 2010-03-11
    • US12405247
    • 2009-03-17
    • Sheng-Chao LiuHsiang-Lin LinKuang-Hsiang LiuChing-Huan LinMing-Tien Lin
    • Sheng-Chao LiuHsiang-Lin LinKuang-Hsiang LiuChing-Huan LinMing-Tien Lin
    • H01L33/00H01L29/786
    • H01L27/1255G02F1/136286H01L27/1214
    • A tri-gate pixel structure includes three sub-pixel regions, three gate lines, a data line, three thin film transistors (TFTs), three pixel electrodes, and a common line. The gate lines are disposed along a first direction, and the data line is disposed along a second direction. The TFTs are disposed in the sub-pixel regions respectively, wherein each TFT has a gate electrode electrically connected to a corresponding gate line, a source electrode electrically connected to the data line, and a drain electrode. The three pixel electrodes are disposed in the three sub-pixel regions respectively, and each pixel electrode is electrically connected to the drain electrode of one TFT respectively. The common line crosses the gate lines and partially overlaps the three gate lines, and the common line and the three pixel electrodes are partially overlapped to respectively form three storage capacitors.
    • 三栅极像素结构包括三个子像素区域,三个栅极线,数据线,三个薄膜晶体管(TFT),三个像素电极和公共线。 栅极线沿着第一方向设置,并且数据线沿着第二方向设置。 TFT分别设置在子像素区域中,其中每个TFT具有电连接到相应的栅极线的栅电极,与数据线电连接的源电极和漏电极。 三个像素电极分别设置在三个子像素区域中,并且每个像素电极分别电连接到一个TFT的漏电极。 公共线与栅极线交叉并且部分地重叠三条栅极线,并且公共线和三个像素电极部分地重叠以分别形成三个存储电容器。