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    • 1. 发明申请
    • PLASMA DISPLAY PANEL
    • 等离子显示面板
    • US20100181909A1
    • 2010-07-22
    • US12665310
    • 2008-04-15
    • Takuji TsujitaYusuke FukuiMasaharu TerauchiMikihiko NishitaniShinichiro IshinoKaname MizokamiMichiko OkafujiHiroshi AsanoKyohei Yoshino
    • Takuji TsujitaYusuke FukuiMasaharu TerauchiMikihiko NishitaniShinichiro IshinoKaname MizokamiMichiko OkafujiHiroshi AsanoKyohei Yoshino
    • H01J17/49
    • H01J11/40H01J11/12H01J11/42
    • A plasma display panel demonstrating excellent image display performance by suppressing generation of initialization bright points through modification of the phosphor layer, and by eliminating variation in discharge characteristics between the discharge cells of each color. In addition to solving these problems, the luminance of the plasma display panel is also enhanced by using the ultraviolet rays emitted in the discharge space in order to promote the production of visible light on the front panel side. Specifically, the phosphor layer (14) is composed of a phosphor component and of MgO powder (16) disposed principally inside the phosphor layer and exposed towards the surface (140) facing the discharge space in order to impart secondary electron emission characteristics. The MgO powder (16) is composed of MgO particles (16a-16d) having a crystal structure with two specific crystal faces consisting of the (100) crystal face and the (111) crystal face, or three specific crystal faces consisting of the (100) crystal face, the (110) crystal face, and the (111) crystal face.
    • 一种等离子体显示面板,其通过改变荧光体层而抑制初始化亮点的产生,并且消除每种颜色的放电单元之间的放电特性的变化,从而显示出优异的图像显示性能。 除了解决这些问题之外,通过使用在放电空间中发射的紫外线来提高等离子体显示面板的亮度,以促进前面板侧的可见光的产生。 具体地,荧光体层(14)由荧光体组分和主要位于荧光体层的内部的MgO粉末(16)构成,并朝向面向放电空间的表面(140)暴露以赋予二次电子发射特性。 MgO粉末(16)由具有由(100)晶面和(111)晶面组成的两个特定晶面的晶体结构的MgO粒子(16a-16d)或由(111)晶面组成的三个特定晶面构成, 100)晶面,(110)晶面和(111)晶面。
    • 9. 发明授权
    • Plasma display panel and its manufacturing method
    • 等离子显示面板及其制造方法
    • US08018154B2
    • 2011-09-13
    • US12297200
    • 2007-04-27
    • Yusuke FukuiTakuji TsujitaJun HashimotoHikaru NishitaniMasaharu TerauchiMikihiko Nishitani
    • Yusuke FukuiTakuji TsujitaJun HashimotoHikaru NishitaniMasaharu TerauchiMikihiko Nishitani
    • H01J17/49
    • H01J11/40H01J9/02H01J11/12H01J11/38
    • A PDP can be driven at low voltage while having a charge retention property in a protection layer, and has favorable image display properties. Additionally, the PDP prevents the occurrence of discharge delay and realizes high-quality image display by performing favorable high-speed driving in a high definition PDP. To achieve this, a surface layer (8) is formed to a film thickness of 1 μm in an oxygen atmosphere having an oxygen partial pressure of 0.025 Pa or more, the surface layer (8) is provided on a face of a dielectric layer (7) on a discharge space side. Furthermore, MgO particles (16) are dispersed on a surface of the surface layer (8). The surface layer (8) has the effects of protecting the dielectric layer (7) from ion bombardment during discharge, reducing the firing voltage, and preventing excessive electron loss. Also, the MgO particles (16) have a high initial electron emission property.
    • PDP可以在低电压下驱动,同时在保护层中具有电荷保持性,并且具有良好的图像显示性能。 此外,PDP通过在高清晰度PDP中执行有利的高速驱动来防止放电延迟的发生并实现高质量的图像显示。 为了实现这一点,在氧分压为0.025Pa以上的氧气氛中,表面层(8)形成为1μm的膜厚,表面层(8)设置在电介质层的表面( 7)放电空间侧。 此外,MgO颗粒(16)分散在表面层(8)的表面上。 表面层(8)具有在放电期间保护电介质层(7)免受离子轰击的作用,降低了点火电压,并防止了电子损失过量。 此外,MgO粒子(16)具有高的初始电子发射特性。