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    • 3. 发明授权
    • Thin film transistor array, fabrication method thereof, and liquid crystal display device employing the same
    • 薄膜晶体管阵列及其制造方法以及采用该薄膜晶体管阵列的液晶显示装置
    • US06750087B2
    • 2004-06-15
    • US10403121
    • 2003-04-01
    • Hiromasa MoritaKen Nakashima
    • Hiromasa MoritaKen Nakashima
    • H01L2184
    • H01L27/1288H01L27/1214Y10S438/945
    • A fabrication method of a thin film transistor array substrate includes a step of forming a gate insulation film, a semiconductor layer, an ohmic layer, and a metal film on the insulating substrate on which the gate line is formed, a step of forming a resist pattern on the metal film by a photolithography process so that its thickness is thinner on the corresponding section to the semiconductor active layer than on the other sections, a step of etching the metal film to form the source line, the source electrode, and the drain electrode, a step of removing the ohmic layer and the semiconductor layer after removing the resist on the corresponding section to the semiconductor active layer, a step of removing the metal film, and a step of removing the ohmic layer.
    • 薄膜晶体管阵列基板的制造方法包括在其上形成栅极线的绝缘基板上形成栅绝缘膜,半导体层,欧姆层和金属膜的步骤,形成抗蚀剂的步骤 通过光刻工艺在金属膜上形成图案,使得其在半导体有源层的相应部分上的厚度比在其它部分上的厚度更薄,蚀刻金属膜以形成源极线,源电极和漏极 电极,去除在半导体活性层的相应部分上的抗蚀剂去除欧姆层和半导体层的步骤,去除金属膜的步骤和去除欧姆层的步骤。
    • 4. 发明授权
    • Liquid crystal display
    • 液晶显示器
    • US06493054B2
    • 2002-12-10
    • US09825953
    • 2001-04-05
    • Masaya MizunumaAkira TamataniKen Nakashima
    • Masaya MizunumaAkira TamataniKen Nakashima
    • G02F11335
    • G02F1/134363G02F1/133753
    • A liquid crystal display of the present invention includes: a pair of substrates, at least one of which is transparent; a liquid crystal layer being interposed between said pair of substrates; electrodes for applying an electric field to liquid crystals molecules in said liquid crystal layer; active switching elements connected with said electrodes; an alignment film being formed on a surface of at least one of said pair of substrates, said surface being contacted with said liquid crystal layer; and an optical device for controlling a transmission of light in cooperation with alignment of said liquid crystal molecules in each pixel, said means being located on at least one said pair of substrates; wherein an aligning direction of each liquid crystal molecule in each pixel is ranged between −2 degrees to +2 degrees with respect to an average aligning direction &thgr;1c of said liquid crystal layer.
    • 本发明的液晶显示器包括:一对基板,其中至少一个是透明的; 液晶层插入在所述一对基板之间; 用于向所述液晶层中的液晶分子施加电场的电极; 与所述电极连接的有源开关元件; 所述取向膜形成在所述一对基板中的至少一个基板的表面上,所述表面与所述液晶层接触; 以及用于与每个像素中的所述液晶分子的对准配合控制光的透射的光学装置,所述装置位于至少一个所述一对基板上; 其中每个像素中的每个液晶分子的对准方向相对于所述液晶层的平均取向方向θ1c在-2度至+2度之间的范围内。
    • 5. 发明授权
    • Aqueous dispersion coating material containing epoxy denatured alkyd
    • 含环氧树脂变性醇酸树脂的水性分散涂料
    • US5202364A
    • 1993-04-13
    • US719668
    • 1991-06-24
    • Hitoshi TaniguchiMasahiro IshidoyaKen NakashimaHisao Ogawa
    • Hitoshi TaniguchiMasahiro IshidoyaKen NakashimaHisao Ogawa
    • C09D163/00C09D167/00
    • C09D167/00C09D163/00
    • An aqueous dispersion coating material containing, as a film-forming constituent, an aqueous dispersion that can be obtained by contacting with an aqueous medium, a base-neutralized resin reaction product with an acid value of 10 to 30 which can be obtained by reacting a water-soluble epoxy-denatured alkyd resin with an epoxy resin in solid state at ordinary temperature and by adding and polymerizing at least a part of these resins and then neutralizing the resin reaction product with a base.Because this coating material has been emulsified in a translucent colloidal emulsion region with an aqueous medium, its finished appearance and corrosion resistance are superior and its structural viscosity can be controlled without damaging the storage stability through the addition of organic solvents, and the excellent finished appearance can also be obtained by atomization coating in addition to immersion coating, flow coating and the like, of vertical areas, and this coating material has applicability to a variety of coating methods.
    • 一种含水分散体涂料,其包含作为成膜组分的水分散体,其可以通过与水性介质接触而获得的水分散体,酸值为10〜30的碱中和树脂反应产物,其可以通过使 水溶性环氧改性醇酸树脂与环氧树脂在常温下为固态,并通过加入和聚合至少一部分这些树脂,然后用碱中和树脂反应产物。 由于该涂料已经在具有水性介质的半透明胶体乳剂区域中乳化,其外观和耐腐蚀性优异,可以通过加入有机溶剂而不损害储存稳定性而控制其结构粘度,并且优异的成品外观 也可以通过除垂直面积的浸渍涂布,流动涂布等之外的雾化涂料获得,并且该涂料具有适用于各种涂布方法。
    • 8. 发明授权
    • Device control management apparatus
    • 设备控制管理装置
    • US07620713B2
    • 2009-11-17
    • US10512057
    • 2003-04-14
    • Yoshio TokuhashiToru UedaMinoru TakemotoKen Nakashima
    • Yoshio TokuhashiToru UedaMinoru TakemotoKen Nakashima
    • G06F15/16G06F15/173
    • H04N21/643H04N5/775
    • Control commands are sent from communication stations (A, B) to devices (D to F), such as a VTR, connected to a communication station (C) via radio networks (NW) provided between the communication stations (A, B) and the communication station (C), thereby controlling the devices (D to F). As a result, video signals outputted from the devices (D to F) via analog wirings (W) are sent from the communication station (C) to the communication stations (A, B) so that videos based on the video signals are displayed in display devices (A11, B11) via the communication stations (A, B). In the communication station (C), identifiers for specifying controllers (A1, B1) which have sent the control commands to the communication stations (A, B) and identifiers for specifying the devices (D to F) controlled are made to respectively correspond to each other, and are stored so that a controller which can be allowed to control is specified. When the control command is sent from the controller (A1), the communication station (C) adds a control right for the device (D) for example to the controller upon confirming that the controller (A1) can be allowed to control the device (D).
    • 控制命令从通信站(A,B)发送到通过设置在通信站(A,B)和通信站(A,B)之间的无线电网络(NW)连接到通信站(C)的设备(D至F) 通信站(C),从而控制设备(D至F)。 结果,经由模拟布线(W)从设备(D至F)输出的视频信号从通信站(C)发送到通信站(A,B),使得基于视频信号的视频被显示在 显示装置(A11,B11)经由通信站(A,B)。 在通信站(C)中,将向控制通信站(A,B)发送了控制命令的指定控制器(A1,B1)的标识符和用于指定控制的设备(D〜F)的标识符分别对应于 并且被存储以便指定可以被允许控制的控制器。 当从控制器(A1)发送控制命令时,通信站(C)例如在确认可以允许控制器(A1)控制设备(A)的情况下,将控制器(D)的控制权添加到控制器 D)。