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    • 2. 发明公开
    • Plasma addressing structure having a pliant dielectric layer
    • 具有柔韧介电层的等离子体寻址结构
    • EP0615248A2
    • 1994-09-14
    • EP94301522.2
    • 1994-03-02
    • TEKTRONIX, INC.
    • Stein, William W.
    • G11C11/26G02F1/133
    • G02F1/13334G11C11/26
    • A plasma addressing structure having data storage elements (16) uses an ionizable gas to store data in and read data out of the storage elements. The storage elements are defined by the overlapping areas of multiple column electrodes (18) extending in a common direction on a first substrate (22) and multiple channels (20) extending in a common direction on a second substrate (24). A layer of pliant dielectric material (26) separates the first and the second substrates, which are positioned face to face and spaced apart with the direction of the channels transverse to that of the column electrodes. Each of the channels is filled with an ionizable gas and includes two electrodes (46 and 48) electrically isolated from each other. The ionizable gas functions as an electrical switch. The storage element includes a layer (32) of liquid crystal material and receives incident image-carrying light.
    • 具有数据存储元件(16)的等离子体寻址结构使用可电离气体来将数据存储在存储元件中并且将数据从存储元件读出。 存储元件由在第一基板(22)上在共同方向上延伸的多个列电极(18)的重叠区域和在第二基板(24)上在共同方向上延伸的多个通道(20)限定。 一层柔韧的介电材料(26)将第一和第二基片分开,第一和第二基片面对面放置并且间隔开,通道的方向横向于列电极的方向。 每个通道充满可电离气体并包括彼此电隔离的两个电极(46和48)。 可电离气体起电气开关的作用。 存储元件包括液晶材料层(32)并且接收入射的携带图像的光。
    • 3. 发明公开
    • Sputter-resistant conductive coatings with enhanced emission of electrons for cathode electrodes in DC plasma addressing structure
    • Zerstäubungsfeste,导电涂层具有改进的对Elektronenemittierung阴极电极在DC等离子体寻址装置
    • EP0827176A3
    • 2000-03-08
    • EP97306147.6
    • 1997-08-13
    • TEKTRONIX, INC.
    • Moore, John S.Stein, William W.Kephart, Donald E.
    • H01J9/02H01J17/04H01J17/06H01J17/48
    • H01J17/485H01J9/022H01J17/066H01J2211/225H01J2217/4025H01J2217/49
    • A conductive refractory compound coating for electrodes is sputter resistant, very resistant to oxidation, and easy to apply by way of electrophoresis or screen printing. This structure is further enhanced by the presence of surface particles of electrically nonconductive ceramic material. when the cathode electrode is energized, electrically nonconductive material is penetrated by the electric field, which attracts secondary electrons out of the cathode electrode, thereby increasing the cathode's efficiency as an emitter of secondary electrons. More specifically, cathode electrodes are used in a plasma addressing structure. The coating is formed by approximately 5 nm particles, each comprised of a fused matrix of conductive and nonconductive particles co-deposited with frit particles by either electrophoresis or "silk" screening. The coating is subsequently baked to fuse the frit and bond the electrophoretically deposited particles to the electrodes.
    • 对电极的导电性的耐火化合物涂层是溅射耐氧化非常耐,且易于通过电泳或丝网印刷的方法来应用。 这种结构进一步由不导电的陶瓷材料的表面上的颗粒的存在而增强。 当阴极电极被通电时,非导电性材料是通过电场,吸引二次电子从阴极电极的,从而增加了阴极的效率,以二次电子的发射器穿透。 更具体地,阴极电极在等离子体寻址结构中使用。 所述涂层通过约5nm的颗粒,各自包括导电和非导电颗粒的熔融基质的共沉积通过电泳任一者或“丝”筛分的玻璃料的颗粒形成。 该涂层随后被烘烤以熔化玻璃料并结合电泳沉积到电极上的颗粒。