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    • 3. 发明授权
    • Tailored spacer structure coating
    • 清洁平板显示器内部部件的方法
    • US06398607B1
    • 2002-06-04
    • US09680989
    • 2000-10-06
    • Lawrence S. PanColin D. StannersTheodore S. Fahlen
    • Lawrence S. PanColin D. StannersTheodore S. Fahlen
    • H01J938
    • H01J9/38
    • A flat panel display that has internal components that are cleaned using a dry cleaning treatment. The cleaned internal components include a matrix structure, a focus structure and a support structure. The dry cleaning treatment removes contaminants from the surfaces of the internal components. By cleaning the internal components, contaminants are removed that can deleteriously affect the performance of the display. The cleaned support structure has uniform resistance and does not produce spatially nonuniform resistivity over time. This prevents regions of the visible display that are not properly illuminated and minimizes the possibility of arcing.
    • 一个平板显示屏,内部组件通过干洗处理进行清洁。 清洁的内部组件包括矩阵结构,聚焦结构和支撑结构。 干洗处理从内部组件的表面去除污染物。 通过清洁内部组件,可以去除污染物,从而有害地影响显示器的性能。 清洁的支撑结构具有均匀的电阻,并且不随时间产生空间不均匀的电阻率。 这可以防止可见显示器的区域未正确照明,并使电弧放电的可能性最小化。
    • 4. 发明授权
    • Wall assembly and method for attaching walls for flat panel display
    • 用于平板显示器的墙壁安装和墙壁安装方法
    • US06225737B1
    • 2001-05-01
    • US09397790
    • 1999-09-16
    • Chungdee PongJohn D. PorterTheodore S. FahlenChristopher J. CurtinRobert G. NeimeyerPaul N. Ludwig
    • Chungdee PongJohn D. PorterTheodore S. FahlenChristopher J. CurtinRobert G. NeimeyerPaul N. Ludwig
    • H01J2902
    • H01J61/305H01J9/185H01J9/242H01J9/261H01J29/028H01J29/864H01J31/123H01J2329/863H01J2329/864H01J2329/8645H01J2329/8665
    • A flat panel display and a method for forming a flat panel display. In one embodiment, the flat panel display includes a wall which is held in place by a structure formed either on the faceplate or on the backplate. In one embodiment the supporting structure is formed by two adjacent walls that form a slot which mechanically restrains the wall. In another embodiment a slot is formed within the faceplate and the walls of the slot mechanically restrain the wall. In one embodiment wall segments are inserted into supporting structures that mechanically restrain each wall segment. In another embodiment a UV curable or a heat curable adhesive is used to maintain walls in their proper alignment and position. In yet another embodiment a conductive material is melted so as to bond conductive lines located on the wall and conductive lines located on the faceplate. This bond electrically connects the conductive lines located on the wall and the conductive lines located on the faceplate and maintains the wall in the proper alignment. The present invention eliminates the need for feet which attach to individual walls for maintaining the walls in the proper alignment.
    • 平板显示器和平板显示器的形成方法。 在一个实施例中,平板显示器包括通过形成在面板上或背板上的结构保持在适当位置的壁。 在一个实施例中,支撑结构由两个相邻的壁形成,其形成机械地限制壁的槽。 在另一个实施例中,在面板内形成槽,并且槽的壁机械地限制壁。 在一个实施例中,壁段插入到机械地限制每个壁段的支撑结构中。 在另一个实施方案中,使用UV可固化或可热固化的粘合剂来保持壁的正确对准和位置。 在另一个实施例中,导电材料被熔​​化以便粘合位于壁上的导电线和位于面板上的导电线。 该接合电连接位于壁上的导电线和位于面板上的导电线,并使壁保持正确的对准。 本发明消除了对连接到各个壁的脚的需要,以保持壁的适当对准。
    • 6. 发明授权
    • Compact pulsed gas transport laser
    • 紧凑型脉冲气体输送激光
    • US4245194A
    • 1981-01-13
    • US57928
    • 1979-07-16
    • Theodore S. FahlenDavid J. Clark
    • Theodore S. FahlenDavid J. Clark
    • H01S3/036H01S3/0971H01S3/11
    • H01S3/0971H01S3/036
    • A physically compact gas transport laser operable at high pulse rates (greater than 1 kHz) in a high vacuum (greater than 10.sup.-5 Torr) is achieved by flowing the active gas at high velocity (greater than 50 m/sec) between two discharge electrodes in a hermetically sealed housing containing squirrel cage type blowers, a heat exchanger and the laser electrodes. A pulse forming network and blower motors are mounted externally of the housing as is the optical resonator assembly. A central partition divides the housing interior into upper and lower gas flow channels. The blowers are located in the lower channel at the housing end downstream from the electrodes and are rotatable in a plane parallel to the plane of the partition. The heat exchanger is located at the opposite end of the housing and both cools and stabalizes the flow of the circulating gas. The housing is a unitary structure having openings for installation of the blowers, heat exchanger and optical windows, which openings are closed by removable metal-to-metal sealing flanges for permitting access to the housing interior without compromising high vacuum integrity of the system.
    • 通过在两个放电之间以高速(大于50m / sec)流动活性气体,可以在高真空(大于10 -5 Torr)中以高脉冲速率(大于1kHz)操作的物理紧凑的气体输送激光器 密封壳体中的电极包含鼠笼式鼓风机,热交换器和激光电极。 脉冲形成网络和鼓风机电动机安装在外壳的外部,如同光谐振器组件一样。 中央分隔件将壳体内部分成上部和下部气体流动通道。 鼓风机位于下部通道中,位于电极下游的壳体端,并且可在平行于隔板平面的平面中旋转。 热交换器位于壳体的相对端,并且冷却并稳定循环气体的流动。 壳体是具有用于安装鼓风机,热交换器和光学窗口的开口的整体结构,这些开口由可移除的金属对金属密封凸缘封闭,以允许进入壳体内部而不损害系统的高真空完整性。
    • 7. 发明授权
    • Pulsed laser electrode assembly
    • 脉冲激光电极组件
    • US4240044A
    • 1980-12-16
    • US57927
    • 1979-07-16
    • Theodore S. FahlenDavid J. Clark
    • Theodore S. FahlenDavid J. Clark
    • H01S3/038H01S3/041H01S3/00
    • H01S3/038H01S3/041
    • An electrode assembly for a compact high vacuum pulsed gas discharge laser comprises an elongated cathode and a coextensive anode spaced apart in a direction transversely of the flow of gas to define a discharge gap. Each of the electrodes is connected at a plurality of equally spaced points along its length to a like number of conductive rods which extend through the top wall of the laser housing for connection to a power source. The cathode comprises a carrier bar directly attached to said rods and a cathode bar adjustably secured to the carrier bar for vertical movement toward and away from the anode to permit attainment of a uniform discharge gap throughout the length of the electrodes. Preionization of the discharge gap is achieved by means of a conductive sleeve electrically connected to one of the electrodes and disposed against the inner surface of a dielectric tube which contacts the other electrode throughout its length. A cooling tube from an external source of coolant passes through a vacuum-tight housing feedthrough post for engagement with the cathode carrier bar over its length for cooling the cathode assembly.
    • 用于紧凑型高真空脉冲气体放电激光器的电极组件包括细长阴极和沿横向于气体流动的方向间隔开的共同延伸阳极,以限定放电间隙。 每个电极沿着其长度在多个等间隔的点处连接到相同数量的导电棒,导电棒延伸穿过激光外壳的顶壁以连接到电源。 阴极包括直接连接到所述杆的载体杆和可调节地固定到载体杆上的阴极杆,用于垂直向阳极移动并远离阳极,以允许在电极的整个长度上达到均匀的放电间隙。 放电间隙的预电离通过电连接到电极之一的导电套筒实现,并且抵靠电介质管的内表面设置,所述电介质管的整个长度与另一电极接触。 来自外部冷却剂源的冷却管通过真空密封的壳体馈通柱,用于与阴极载体杆在其长度上接合以冷却阴极组件。