PIXEL ARRAY
    1.
    发明申请
    PIXEL ARRAY 有权
    像素阵列

    公开(公告)号:US20120056207A1

    公开(公告)日:2012-03-08

    申请号:US13077989

    申请日:2011-04-01

    IPC分类号: H01L27/15

    摘要: A pixel array includes pixel sets. Each pixel set includes a first and second scan lines arranged in parallel on a substrate, a data line not parallel to the first and second scan lines, a first active device electrically connecting the first scan line and the data line, a second active device electrically connecting the second scan line and the data line, a first pixel electrode electrically connecting the first active device, a second pixel electrode electrically connecting the second active device, and an auxiliary electrode pattern that includes a connecting portion and a first and second branch portions. A gap is between the first and second pixel electrodes. The connecting portion underneath the gap between the first and second pixel electrodes partially overlaps the first and second pixel electrodes. The first and second branch portions connect the connecting portion and partially overlap the first and second pixel electrodes, respectively.

    摘要翻译: 像素阵列包括像素集。 每个像素组包括平行布置在衬底上的第一和第二扫描线,不平行于第一和第二扫描线的数据线,电连接第一扫描线和数据线的第一有源器件,电连接第一扫描线和数据线的第二有源器件 连接第二扫描线和数据线,电连接第一有源器件的第一像素电极,电连接第二有源器件的第二像素电极和包括连接部分和第一和第二分支部分的辅助电极图案。 在第一和第二像素电极之间存在间隙。 第一和第二像素电极之间的间隙下方的连接部分与第一和第二像素电极部分重叠。 第一和第二分支部分分别连接连接部分,并分别与第一和第二像素电极部分重叠。

    Pixel array
    2.
    发明授权
    Pixel array 有权
    像素阵列

    公开(公告)号:US08576366B2

    公开(公告)日:2013-11-05

    申请号:US13077989

    申请日:2011-04-01

    IPC分类号: G02F1/1343

    摘要: A pixel array includes pixel sets. Each pixel set includes a first and second scan lines arranged in parallel on a substrate, a data line not parallel to the first and second scan lines, a first active device electrically connecting the first scan line and the data line, a second active device electrically connecting the second scan line and the data line, a first pixel electrode electrically connecting the first active device, a second pixel electrode electrically connecting the second active device, and an auxiliary electrode pattern that includes a connecting portion and a first and second branch portions. A gap is between the first and second pixel electrodes. The connecting portion underneath the gap between the first and second pixel electrodes partially overlaps the first and second pixel electrodes. The first and second branch portions connect the connecting portion and partially overlap the first and second pixel electrodes, respectively.

    摘要翻译: 像素阵列包括像素集。 每个像素组包括平行布置在衬底上的第一和第二扫描线,不平行于第一和第二扫描线的数据线,电连接第一扫描线和数据线的第一有源器件,电连接第一扫描线和数据线的第二有源器件 连接第二扫描线和数据线,电连接第一有源器件的第一像素电极,电连接第二有源器件的第二像素电极和包括连接部分和第一和第二分支部分的辅助电极图案。 在第一和第二像素电极之间存在间隙。 第一和第二像素电极之间的间隙下方的连接部分与第一和第二像素电极部分重叠。 第一和第二分支部分分别连接连接部分,并分别与第一和第二像素电极部分重叠。

    Microfluidic device with network micro channels
    3.
    发明授权
    Microfluidic device with network micro channels 有权
    具有网络微通道的微流控器件

    公开(公告)号:US07229538B2

    公开(公告)日:2007-06-12

    申请号:US10661750

    申请日:2003-09-11

    摘要: A microfluidic device has a plurality of H-shaped micro channels not connected to each other and formed on a substrate. Each of the H-shaped micro channels comprises two main channels separately placed on two opposite sides in parallel and a plurality of sub-channels perpendicularly connected to the two main channels. The present invention is designed in such a way that various reagents dropped into different H-shaped micro channels are immobilized on respective sub-channels because of the different widths of the main channel and sub-channel. Afterwards the reagents are coated with a layer of polymer. The polymer has a porous structure that allows the passage of any sample to be tested. Finally, a plurality of upper channels parallel to one another are directly fabricated in the polymer, or in another layer of polymer stacked on the previous polymer.

    摘要翻译: 微流体装置具有彼此不连接并形成在基板上的多个H形微通道。 每个H形微通道包括分别放置在平行的两个相对侧上的两个主通道和垂直连接到两个主通道的多个子通道。 本发明的设计使得由于主通道和子通道的宽度不同,滴入不同H形微通道的各种试剂固定在各个子通道上。 之后,用一层聚合物涂覆试剂。 聚合物具有允许待测样品通过的多孔结构。 最后,彼此平行的多个上部通道直接制造在聚合物中,或者在堆叠在先前聚合物上的另一层聚合物中。