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    • 2. 发明申请
    • Plasma display panel
    • 等离子显示面板
    • US20070052348A1
    • 2007-03-08
    • US10576671
    • 2004-10-28
    • Masashi GotoMikihiko NishitaniKatsumi AdachiYoshinori YamadaSatoshi Ikeda
    • Masashi GotoMikihiko NishitaniKatsumi AdachiYoshinori YamadaSatoshi Ikeda
    • H01J1/62
    • H01J11/24H01J11/12H01J2211/245
    • The present invention is a plasma display panel in which a plurality of pairs of display electrodes extending in a row direction are disposed on a surface of a first substrate and a plurality of discharge cells are formed along each pair of display electrodes, wherein, at least within each discharge cell, each display electrode of the pair of display electrodes comprises a bus line and a band-shaped electrode member that is electrically connected to the bus line, the band-shaped electrode member extending in the row direction and being disposed at least mainly on a same side of the bus line as a gap between the pair of display electrodes, and each band-shaped electrode member has at least one cut-out formed from a gap-side edge towards the bus line, each cut-out having a length that is shorter than a distance between the gap-side edge and the bus line. When the plasma display panel is driven, peaks in electric field intensity are respectively formed in the discharge cell in regions of the electrode member on both sides of the cut-outs. Here, The display electrodes can be constructed from bus lines and transparent electrodes both extending in the row direction, and the band-shaped electrode member can be a transparent electrode.
    • 本发明是一种等离子体显示面板,其中沿着行方向延伸的多对显示电极设置在第一基板的表面上,并且沿着每对显示电极形成多个放电单元,其中至少 在每个放电单元内,一对显示电极的每个显示电极包括母线和与母线电连接的带状电极构件,带状电极构件沿行方向延伸并且至少设置 主要在总线的同一侧作为一对显示电极之间的间隙,并且每个带状电极构件具有从间隙侧边缘朝向总线形成的至少一个切口,每个切口具有 长度短于间隙侧边缘和总线之间的距离。 当驱动等离子体显示面板时,在切口两侧的电极构件的区域中,在放电单元中分别形成有电场强度的峰值。 这里,显示电极可以由沿行方向延伸的总线线路和透明电极构成,带状电极部件也可以是透明电极。
    • 4. 发明申请
    • Plasma display panel
    • 等离子显示面板
    • US20070029908A1
    • 2007-02-08
    • US10576213
    • 2004-10-28
    • Masashi GotoMikihiko NishitaniKatsumi AdachiYoshinori YamadaSatoshi Ikeda
    • Masashi GotoMikihiko NishitaniKatsumi AdachiYoshinori YamadaSatoshi Ikeda
    • H01J21/10
    • H01J11/24H01J11/12H01J2211/245
    • A plasma display panel in which a plurality of pairs of display electrodes extending in a row direction are aligned on a surface of a first substrate, a plurality of address electrodes extending in a column direction are disposed in a stripe pattern on a surface of a second substrate, the first and second substrates are disposed opposite each other so that the pairs of display electrodes and the address electrodes cross over sandwiching discharge space therebetween, and a discharge cell is formed corresponding to each crossover portion. The pairs of display electrodes are composed of a metallic material, each display electrode of each pair of display electrodes includes a base part extending in the row direction and a plurality of opposing parts extending from the base part into a discharge interval between the each pair of display electrodes. In each discharge cell, at least two discharge starting gaps are formed, each discharge starting gap existing between opposing parts that respectively belong each of the pair display electrodes and being at least partially over the address electrode. Discharge space exists between the each discharge starting gap and the address electrode, and peaks in electric field intensity are formed at each of the opposing parts.
    • 一种等离子体显示面板,其中沿行方向延伸的多对显示电极在第一基板的表面上排列,沿列方向延伸的多个寻址电极以条纹图案设置在第二基板的表面上 基板,第一基板和第二基板彼此相对布置,使得成对的显示电极和寻址电极在其间夹着放电空间交叉,并且对应于每个交叉部分形成放电单元。 这些显示电极对由金属材料构成,每对显示电极的每个显示电极包括沿行方向延伸的基部和从基部延伸到每对显示电极之间的放电间隔的多个相对部分 显示电极。 在每个放电单元中,形成至少两个放电起始间隙,每个放电起始间隙存在于分别对应于每对显示电极并且至少部分地位于寻址电极之间的相对部分之间。 在每个放电起始间隙和寻址电极之间存在放电空间,并且在每个相对部分处形成电场强度的峰值。
    • 10. 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。