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    • 2. 发明公开
    • Electrode shunt in plasma channel
    • 在einem Plasmakanal分流冯Elektroden。
    • EP0614167A1
    • 1994-09-07
    • EP94301520.6
    • 1994-03-02
    • TEKTRONIX, INC.
    • Ilcisin, Kevin J.Moore, John S.
    • G09G3/36H01J17/49
    • G09G3/3662
    • A method and apparatus are provided for reducing cross-talk across the width of a pixel, cross-talk along the length of a channel, flicker, and/or image sticking in a display system of the type disclosed in U.S. Patent No. 4,896,149 ("'149 Patent"). The invention adds to the apparatus disclosed in the '149 Patent (a) an electrical circuit (resistor 102, switch 108) for bringing a reference electrode (30') and a row electrode (62') in a channel (20') to the same potential before the gaseous medium in the channel loses an ability to redistribute charge and (b) an electrical circuit (driver 104 and/or driver 26) operable to bring or to clamp one or both of those electrodes to a predetermined electrical potential. corresponding methods are also provided. The apparatus and methods may be selected through knowledge of time parameters associated with the apparatus or by experimental observation of the distortions in a flat panel display.
    • 提供了一种方法和装置,用于减少跨越像素的宽度的串扰,沿着通道的长度的串扰,闪烁和/或在美国专利No.4,896,149中公开的类型的显示系统中的图像粘贴( “'149专利”)。 本发明增加了在“149专利(a)中所公开的装置中,用于使参考电极(30')和行电极(62')在通道(20')中的电路(电阻器102,开关108) 在通道中的气体介质之前相同的电位失去重新分配电荷的能力,和(b)电路(驱动器104和/或驱动器26)可操作以将这些电极中的一个或两个钳位或钳位到预定电位。 还提供了相应的方法。 可以通过了解与设备相关的时间参数或通过实验观察平板显示器中的失真来选择设备和方法。
    • 6. 发明公开
    • Brazing of ink jet print head components using thin layers of braze material
    • Lötungvon Farbstrahldruckkopfelementen unter Verwendung vondünnschichtigemLötmaterial。
    • EP0357019A2
    • 1990-03-07
    • EP89115981.6
    • 1989-08-30
    • TEKTRONIX INC.
    • Anderson, Jeffrey J.Moore, John S.
    • B41J2/135
    • B23K1/18
    • A first surface of a first metal component of an ink jet print head is bonded to a second surface of a second metal component of the ink jet print head, the first and second surfaces being of materials having the same or similar coefficients of thermal expansion. A layer of filler material is electroplated or otherwise placed on at least one of these surfaces. The filler material has a melting point which is below the melting point of the first and second components, and the total thickness of the filler material on the surfaces together is in the range of from approximately one-sixteenth micron to approximately five microns, with one-eighth micron to two microns being a preferred range. These surfaces are placed together and brazed under low pressure. Preferably, the braze pressure is from about one-half psi to no more than about one hundred psi, with about ten psi being most preferred.
    • 喷墨打印头的第一金属部件的第一表面被结合到喷墨打印头的第二金属部件的第二表面上,第一和第二表面是具有相同或相似的热膨胀系数的材料。 填充材料层被电镀或以其它方式放置在这些表面中的至少一个表面上。 填充材料具有低于第一和第二组分的熔点的熔点,并且表面上的填料材料的总厚度在大约十六微米至大约五微米的范围内,一个 微米至2微米为优选范围。 将这些表面放置在一起并在低压下钎焊。 优选地,钎焊压力为约1/2psi至不超过约100psi,最优选约10psi。
    • 7. 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。
    • 10. 发明公开
    • Method and apparatus for interlaced multicolor printing
    • 德伐克德(Verfahren und Vorrichtung zum mehrfarbigen verketteten Drucken)。
    • EP0458650A2
    • 1991-11-27
    • EP91304735.3
    • 1991-05-24
    • TEKTRONIX INC.
    • Moore, John S.Anderson, Jeffrey J.Eriksen, Joern B.
    • B41J2/51B41J2/21
    • B41J2/2132
    • Printing is done by an array (24,28) of color-printing elements (26,30) or nozzles in order to produce interlaced color printing while printing each line only once with each color. Print head array configurations for printing two, three and four colors include linear and parallel arrays (24,28). In one embodiment, a first color and a second color are printed on alternate lines of a first set (40) of print lines. The first color and a third color are printed on alternate lines of a second set (41) of print lines. Also, the second color and the third color are printed on alternate lines of a third set (42) of print lines. By sequentially printing these consecutive sets of lines on a print medium (22), with each of the three pairs of colors, all of the lines of an image are printed once with each color. Other colorprinting configurations are also shown.
    • 通过彩色打印元件(26,30)或喷嘴的阵列(24,28)进行打印,以便产生隔行扫描的彩色打印,同时每种颜色只打印一行。 用于打印两种,三种和四种颜色的打印头阵列配置包括线性和平行阵列(24,28)。 在一个实施例中,第一颜色和第二颜色印刷在第一组(40)打印线的交替线上。 第一颜色和第三颜色印刷在第二组(41)打印线的交替线上。 此外,第二颜色和第三颜色印刷在第三组(42)打印线的交替线上。 通过在打印介质(22)上顺序打印这些连续的一组行,使用三对颜色中的每一种,图像的所有行都以每种颜色打印一次。 还显示了其他彩色打印配置。