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    • 2. 发明申请
    • LIGHT EMITTING SCREEN AND METHOD OF FABRICATING THE LIGHT EMITTING SCREEN
    • 发光屏幕和制造发光屏幕的方法
    • US20120007491A1
    • 2012-01-12
    • US13158535
    • 2011-06-13
    • Ginjiro Toyoguchi
    • Ginjiro Toyoguchi
    • H01J1/62H01J9/00
    • H01J29/28H01J9/148H01J29/322
    • A method of fabricating a light emitting screen 1 comprises steps of providing a resistance layer 6 having a plurality of apertures arranged in a lattice pattern and having light emitting members each arranged in each of the apertures, on a substrate 2 having an image display region 10 and a peripheral region 11 at an outer periphery of the image display region, such that the resistance layer extends from the image display region to the peripheral region, and such that the plurality of apertures are arranged in the image display region, providing a resistance adjusting layer having a resistance value larger than that of the resistance layer, on the resistance layer, to divide the image display region and the peripheral region into a plurality of segments, and forming a film of an electroconductive layer to cover the resistance layer and the light emitting member positioned in the segments.
    • 一种制造发光屏1的方法包括以下步骤:在具有图像显示区域10的基板2上提供电阻层6,该电阻层6具有布置成格子图案的多个孔,并且具有各自布置在每个孔中的发光部件 以及在图像显示区域的外周的外围区域11,使得电阻层从图像显示区域延伸到周边区域,并且使得多个孔口被布置在图像显示区域中,从而提供电阻调节 在电阻层上具有比电阻层大的电阻值的层,将图像显示区域和周边区域分割为多个区段,并且形成导电层的膜以覆盖电阻层和光 位于片段中的发射构件。
    • 5. 发明授权
    • Polycrystalline MgO deposition material having adjusted Si concentration
    • 具有调节Si浓度的多晶MgO沉积材料
    • US06995104B2
    • 2006-02-07
    • US10682039
    • 2003-10-10
    • Eung Chul ParkHideaki SakuraiYoshirou KuromitsuGinjiro Toyoguchi
    • Eung Chul ParkHideaki SakuraiYoshirou KuromitsuGinjiro Toyoguchi
    • C04B35/04
    • H01J11/40C03C17/3411H01J11/12
    • It is an object of the present invention to provide a polycrystalline MgO deposition material which is capable of obtaining a good discharge response characteristic over a wide temperature range. Additionally, it is another object of the present invention to provide a plasma display panel with an improved luminance and a material for the plasma display panel which can remarkably reduce the number of address ICs without lowering the panel luminance. In order to achieve the objects, there is provided an improvement of a polycrystalline MgO deposition material for a passivation layer of the plasma display panel. A characteristic structure is that the polycrystalline MgO deposition material is formed of a sintered pellet of polycrystalline MgO, of which MgO purity is more than 99.9% and relative density is more than 90%. Further, a Si concentration in the polycrystalline MgO is more than 30 ppm and less than 500 ppm.
    • 本发明的目的是提供一种多晶MgO沉积材料,其能够在宽的温度范围内获得良好的放电响应特性。 此外,本发明的另一个目的是提供一种具有改进的亮度的等离子体显示面板和用于等离子体显示面板的材料,其可以显着地减少地址IC的数量而不降低面板亮度。 为了实现上述目的,提供了用于等离子体显示面板的钝化层的多晶MgO沉积材料的改进。 特征结构是多晶MgO沉积材料由多晶MgO的烧结颗粒形成,其中MgO的纯度大于99.9%,相对密度大于90%。 此外,多晶MgO中的Si浓度大于30ppm且小于500ppm。
    • 6. 发明授权
    • Light emitting screen and method of fabricating the light emitting screen
    • 发光屏和制造发光屏的方法
    • US08242682B2
    • 2012-08-14
    • US13158535
    • 2011-06-13
    • Ginjiro Toyoguchi
    • Ginjiro Toyoguchi
    • H01J9/00
    • H01J29/28H01J9/148H01J29/322
    • A method of fabricating a light emitting screen 1 comprises steps of providing a resistance layer 6 having a plurality of apertures arranged in a lattice pattern and having light emitting members each arranged in each of the apertures, on a substrate 2 having an image display region 10 and a peripheral region 11 at an outer periphery of the image display region, such that the resistance layer extends from the image display region to the peripheral region, and such that the plurality of apertures are arranged in the image display region, providing a resistance adjusting layer having a resistance value larger than that of the resistance layer, on the resistance layer, to divide the image display region and the peripheral region into a plurality of segments, and forming a film of an electroconductive layer to cover the resistance layer and the light emitting member positioned in the segments.
    • 一种制造发光屏1的方法包括以下步骤:在具有图像显示区域10的基板2上提供电阻层6,该电阻层6具有布置成格子图案的多个孔,并且具有各自布置在每个孔中的发光部件 以及在图像显示区域的外周的外围区域11,使得电阻层从图像显示区域延伸到周边区域,并且使得多个孔口被布置在图像显示区域中,从而提供电阻调节 在电阻层上具有比电阻层大的电阻值的层,将图像显示区域和周边区域分割为多个区段,并且形成导电层的膜以覆盖电阻层和光 位于片段中的发射构件。
    • 7. 发明授权
    • Image forming apparatus and light emitter substrate
    • 图像形成装置和发光体基板
    • US07812514B2
    • 2010-10-12
    • US12173982
    • 2008-07-16
    • Shinsuke KojimaGinjiro ToyoguchiOsamu Takamatsu
    • Shinsuke KojimaGinjiro ToyoguchiOsamu Takamatsu
    • H01J1/62
    • H01J31/127H01J29/327
    • To provide an image forming/displaying apparatus which can achieve high image quality and high reliability, the image forming/displaying apparatus comprises a rear plate having plural electron-emitting devices; and a face plate arranged oppositely to the rear plate. The face plate has plural light emission films for emitting light in response to irradiation of electrons, and black members for mutually separating the plural light emission films from others. The plural light emission films are arranged so that the adjacent light emission films emit light of mutually different colors. Further, a convex member, which projects from the surface of the light emission film, is provided within the area of each light emission film.
    • 为了提供能够实现高图像质量和高可靠性的图像形成/显示装置,图像形成/显示装置包括具有多个电子发射装置的后板; 以及与后板相对布置的面板。 面板具有多个用于响应于电子照射而发光的发光膜,以及用于将多个发光膜与其它发光膜相互分离的黑色部件。 多个发光膜被配置成使得相邻的发光膜发射相互不同颜色的光。 此外,在每个发光膜的区域内设置有从发光膜的表面突出的凸部。