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    • 3. 发明授权
    • Electroluminescence panel
    • 电致发光面板
    • US07548019B2
    • 2009-06-16
    • US11156961
    • 2005-06-20
    • Tetsuji OmuraRyuji Nishikawa
    • Tetsuji OmuraRyuji Nishikawa
    • H05B33/04H05B33/10
    • H01L51/5265
    • An electroluminescence panel having an electroluminescence element in each pixel, wherein the electroluminescence element comprises an emissive element layer having at least a light emitting function between a reflective film and a semi-transmissive film which is provided opposing the reflective film and have portions having different cavity lengths in one pixel, the cavity length being a distance between the reflective film and the semi-transmissive film. Such a structure can be realized, for example, by changing a thickness of a transparent electrode which is a lower electrode of the element. Because peak wavelength that can be intensified can be varied among regions in one pixel having different cavity lengths, a viewing angle dependency is improved.
    • 一种在每个像素中具有电致发光元件的电致发光板,其中所述电致发光元件包括在反射膜和半透射膜之间具有至少发光功能的发光元件层,所述发光元件层设置成与所述反射膜相对设置,并且具有不同腔体的部分 长度在一个像素中,空腔长度是反射膜和半透膜之间的距离。 这种结构可以通过例如通过改变作为元件的下电极的透明电极的厚度来实现。 因为可以增强的峰值波长可以在具有不同腔长度的一个像素中的区域中变化,所以提高了视角依赖性。
    • 7. 发明授权
    • Display device manufacturing method
    • 显示器件制造方法
    • US06705912B2
    • 2004-03-16
    • US10378079
    • 2003-03-04
    • Toru SasataniTetsuji Omura
    • Toru SasataniTetsuji Omura
    • H01J162
    • H01L51/5246H01L27/3244H01L2251/558
    • A display device manufacturing method includes providing a device substrate having a display element, providing a sealing substrate, and forming a layer of a sealing resin on the sealing substrate. The viscosity of the sealing resin is between 40000 cp and 170000 cp when the layer of the sealing resin is formed. The method also includes placing the sealing substrate on the device substrate so that the layer of the sealing resin is disposed between the sealing substrate and the device substrate, and heating the layer of the sealing resin to harden the sealing resin so that the sealing substrate and the device substrate are attached together by the sealing resin.
    • 显示装置制造方法包括提供具有显示元件的装置基板,提供密封基板,以及在密封基板上形成密封树脂层。 当形成密封树脂层时,密封树脂的粘度为40000cp至170000cp。 该方法还包括将密封基板放置在器件基板上,使得密封树脂层设置在密封基板和器件基板之间,并且加热密封树脂层以硬化密封树脂,使得密封基板和 装置基板通过密封树脂附着在一起。
    • 8. 发明授权
    • Vertically aligned liquid crystal display with improved viewing characteristics
    • 垂直对准的液晶显示屏,具有改进的观看特性
    • US06509944B2
    • 2003-01-21
    • US09163083
    • 1998-09-29
    • Norio KomaTetsuji OmuraKiyoshi Yoneda
    • Norio KomaTetsuji OmuraKiyoshi Yoneda
    • G02F11343
    • G02F1/133707G02F1/1393
    • A vertically aligned type liquid crystal display includes a liquid crystal layer disposed between a plurality of pixel electrodes and a common electrode and containing vertically aligned liquid crystal molecules, the orientation of the liquid crystal molecules being controlled by electric field. An orientation control window is formed in the common electrode. A distance Wp between adjacent pixel electrodes and/or a width Ws of the orientation control window is selected so as to satisfy Wp≧d/2 and/or Ws≧d/2, where d is a distance (or a cell gap) between the pixel electrodes and the common electrode. Viewing angle is widened and a viewing angle characteristic is improved, and abnormal orientation or grittiness of an image is eliminated.
    • 垂直取向型液晶显示器包括设置在多个像素电极和公共电极之间并且包含垂直取向的液晶分子的液晶层,液晶分子的取向由电场控制。 在公共电极中形成取向控制窗。 选择相邻像素电极之间的距离Wp和/或取向控制窗口的宽度Ws,以满足Wp> = d / 2和/或Ws> = d / 2,其中d是距离(或者单元间隙 )在像素电极和公共电极之间。 视角加宽,视角特性提高,图像异常取向或粗糙度得以消除。
    • 9. 发明授权
    • Method for manufacturing liquid crystal display
    • 制造液晶显示器的方法
    • US06246458B1
    • 2001-06-12
    • US09193748
    • 1998-11-17
    • Norio KomaKiyoshi YonedaTetsuji Omura
    • Norio KomaKiyoshi YonedaTetsuji Omura
    • G02F11337
    • G02F1/13378G02F1/136227G02F1/136277G02F2001/133742G02F2001/133765
    • On a substrate, a gate electrode, a gate insulating film covering the gate electrode, a p-Si film, and an interlayer insulating film covering the p-Si film are formed. On these a drain electrode and a source electrode are formed, so as to form a thin film transistor. In addition, a smoothing insulator film covering the thin film transistor, a pixel electrode, and a vertical alignment film covering the pixel electrode are formed. The vertical alignment film is not processed with rubbing treatment, so that the liquid crystal having negative dielectric constant anisotropy is controlled in an initial direction of the substantially normal direction without pretilt. Upon applying a voltage, the tilt of the orientation is controlled in the direction of a slanting electric field at the edge of the pixel electrode, so that a pixel division is performed. Since the rubbing treatment is not performed, electrostatic breakdown of the thin film transistor is prevented.
    • 在衬底上形成覆盖p-Si膜的栅电极,覆盖栅电极的栅极绝缘膜,p-Si膜和层间绝缘膜。 在这些上形成漏电极和源电极,以形成薄膜晶体管。 此外,形成覆盖薄膜晶体管的平滑绝缘膜,像素电极和覆盖像素电极的垂直取向膜。 垂直取向膜不用摩擦处理进行处理,从而将具有负介电常数各向异性的液晶在大致正常方向的初始方向上进行控制,而无需预倾斜。 在施加电压时,沿像素电极的边缘处的倾斜电场的方向控制取向的倾斜,从而进行像素分割。 由于不进行摩擦处理,因此防止了薄膜晶体管的静电击穿。
    • 10. 发明授权
    • Light-emitting display
    • 发光显示
    • US07903055B2
    • 2011-03-08
    • US11579215
    • 2005-04-27
    • Ryuji NishikawaTetsuji Omura
    • Ryuji NishikawaTetsuji Omura
    • G09G3/30
    • H01L51/5262H01L27/3213H01L27/322H01L27/3258H01L51/5209H01L51/5265H01L2251/558H05B33/22
    • Disclosed is a light-emitting display having a plurality of pixels wherein each pixel comprises a light-emitting device (100) having a light-emitting element layer which is formed between a first electrode and a second electrode and contains at least a light-emitting layer. An insulating layer (30) is formed between the light-emitting device (100) and a surface of a first or second substrate on the viewing side of the display, and the insulating layer (30) is provided with recesses and projections in at least one or more pixel regions, thereby forming an optical path length adjusting portion (32). By forming such an optical path length adjusting portion (32) in a pixel region, there is an increase in the interference conditions for the light emitted from the light-emitting device (100) to the outside, thereby averaging the interference.
    • 公开了一种具有多个像素的发光显示器,其中每个像素包括具有发光元件层的发光器件(100),发光元件层形成在第一电极和第二电极之间,并且至少包含发光 层。 在发光装置(100)和显示器的观看侧的第一或第二基板的表面之间形成绝缘层(30),绝缘层(30)至少设置有凹部和凸部 一个或多个像素区域,从而形成光路长度调节部分(32)。 通过在像素区域中形成这样的光路长度调整部(32),从发光装置(100)发射到外部的光的干涉条件增加,从而平均干涉。