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    • 1. 发明授权
    • Fluorescent display device
    • 荧光显示装置
    • US5510672A
    • 1996-04-23
    • US183348
    • 1994-01-18
    • Yoshiaki WashioHiroshi Yamaguchi
    • Yoshiaki WashioHiroshi Yamaguchi
    • H01J31/15G09F13/22G09G3/22H01J29/30H01J29/52
    • G09G3/22G09F13/22
    • A dot matrix type fluorescent display device including anode segments arranged at fine pitches is provided which is capable of facilitating arrangement of grids and substantially preventing leakage luminance. A plurality of anode segments are arranged to defined a matrix. Each three wiring conductors are arranged for every anode row. The anode segments in each row are connected to the same writing conductors at every third interval. Each one mesh grid is arranged in correspondence to every two columns of anode segments. The anodes each are arranged so as to outwardly extend by distance one third as large as a dimension thereof from the grid. Each adjacent two grids are applied thereto a positive potential and shifted one by one. Of four columns of anodes corresponding to two grids, two columns of anodes positioned inside the grids are fed with a display signal. Unselected anodes adjacent thereto are likewise fed with the display signal, however, impingement of electrons on the unselected anodes is effectively prevented because an interval between the grids adjacent to each other is increased.
    • 提供了一种点阵型荧光显示装置,其包括以细间距排列的阳极段,其能够有利于格栅的布置并且基本上防止泄漏亮度。 布置多个阳极段以定义矩阵。 每三个布线导体布置在每个阳极排。 每行的阳极段以每三个间隔连接到相同的写入导体。 每个网格格栅对应于每两列阳极段布置。 阳极各自被布置成向外延伸距离格栅的尺寸的三分之一大的尺寸。 将每个相邻的两个栅格施加到其上一个正电位并逐个移位。 在对应于两个栅格的四列阳极中,位于栅格内部的两列阳极被馈送显示信号。 与其相邻的未选择的阳极同样被馈送显示信号,然而,由于彼此相邻的格栅之间的间隔增加,因此有效地防止了电子在未选择的阳极上的撞击。
    • 5. 发明授权
    • Touch sensor and fluorescent display having the same
    • 触摸传感器和荧光显示屏具有相同的功能
    • US08842093B2
    • 2014-09-23
    • US13220236
    • 2011-08-29
    • Tsuyoshi MagamiYoshiaki WashioYoshiteru Kawashima
    • Tsuyoshi MagamiYoshiaki WashioYoshiteru Kawashima
    • G06F3/045H03K17/96H01J31/12G06F3/044
    • H03K17/9622G06F3/044H01J31/125H03K2017/9602H03K2217/96046H03K2217/960705
    • An electrostatic capacitance type touch sensor is provided. The touch sensor includes a substrate and a grid pattern formed on a surface of the substrate by a plurality of first linear wires and a plurality of second linear wires, the first linear wires being arranged parallel to each other at a predetermined interval, and the second linear wires being arranged parallel to each other at a predetermined interval and intersecting with the first linear wires. A separation portion is provided to the first linear wires and the second linear wires to form a sensor portion and a dummy sensor portion which are located next to each other and electrically separated from each other. The shape of a gap between the sensor portion and the dummy sensor portion located next to each other is improved not being formed into a band-like shape surrounded by two parallel conductive linear wires, and a boundary between the sensor portion and the dummy sensor portion located next to each other can be less-visible thereby improving the appearance, and the capacitance between the sensor portion and the dummy sensor portion located next to each other is reduced, thereby improving the accuracy of detecting a touch by adjusting the sensitivity.
    • 提供一种静电电容型触摸传感器。 触摸传感器包括通过多个第一线性线和多个第二线性线形成在基板的表面上的基板和网格图案,第一线性线以预定间隔彼此平行地布置,第二线性线 线状线以预定间隔彼此平行地布置并与第一线性线相交。 分离部分设置在第一线性线和第二直线上,以形成彼此相邻且彼此电分离的传感器部分和虚拟传感器部分。 传感器部分和彼此相邻的虚拟传感器部分之间的间隙的形状被改善成不被形成由两条平行的导电线性导线包围的带状形状,并且传感器部分和虚拟传感器部分之间的边界 彼此相邻的位置可以不太可见,从而改善外观,并且彼此相邻的传感器部分和虚拟传感器部分之间的电容减小,从而通过调整灵敏度来提高检测触摸的精度。
    • 7. 发明申请
    • Touch Sensor And Fluorescent Display Having The Same
    • 触摸传感器和荧光显示屏具有相同的功能
    • US20120050222A1
    • 2012-03-01
    • US13220236
    • 2011-08-29
    • Tsuyoshi MagamiYoshiaki WashioYoshiteru Kawashima
    • Tsuyoshi MagamiYoshiaki WashioYoshiteru Kawashima
    • G06F3/044H03K17/96
    • H03K17/9622G06F3/044H01J31/125H03K2017/9602H03K2217/96046H03K2217/960705
    • An electrostatic capacitance type touch sensor is provided. The touch sensor includes a substrate and a grid pattern formed on a surface of the substrate by a plurality of first linear wires and a plurality of second linear wires, the first linear wires being arranged parallel to each other at a predetermined interval, and the second linear wires being arranged parallel to each other at a predetermined interval and intersecting with the first linear wires. A separation portion is provided to the first linear wires and the second linear wires to form a sensor portion and a dummy sensor portion which are located next to each other and electrically separated from each other. The shape of a gap between the sensor portion and the dummy sensor portion located next to each other is improved not being formed into a band-like shape surrounded by two parallel conductive linear wires, and a boundary between the sensor portion and the dummy sensor portion located next to each other can be less-visible thereby improving the appearance, and the capacitance between the sensor portion and the dummy sensor portion located next to each other is reduced, thereby improving the accuracy of detecting a touch by adjusting the sensitivity.
    • 提供一种静电电容型触摸传感器。 触摸传感器包括通过多个第一线性线和多个第二线性线形成在基板的表面上的基板和网格图案,第一线性线以预定间隔彼此平行地布置,第二线性线 线状线以预定间隔彼此平行地布置并与第一线性线相交。 分离部分设置在第一线性线和第二直线上,以形成彼此相邻且彼此电分离的传感器部分和虚拟传感器部分。 传感器部分和彼此相邻的虚拟传感器部分之间的间隙的形状被改善成不被形成由两条平行的导电线性导线包围的带状形状,并且传感器部分和虚拟传感器部分之间的边界 彼此相邻的位置可以不太可见,从而改善外观,并且彼此相邻的传感器部分和虚拟传感器部分之间的电容减小,从而通过调整灵敏度来提高检测触摸的精度。