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    • 5. 发明授权
    • Seal for vacuum devices and methods for making same
    • 真空装置的密封及其制造方法
    • US5897927A
    • 1999-04-27
    • US884915
    • 1997-06-30
    • Kuang-Lung TsaiChung-Hsing ChaoWei-Chiang Chen
    • Kuang-Lung TsaiChung-Hsing ChaoWei-Chiang Chen
    • C03C27/04H01J9/40E06B3/24
    • H01J9/40C03C27/042
    • A method for permanently sealing an ultra-high vacuum within a glass enclosure. This is accomplished by first forming a hole, either in one of the flat plates that form the enclosure or in one of the standoffs that separate the plates, and then sealing a metal tube to the glass. In one embodiment, the metal tube is positioned so as to be partly inside the hole while in another a flange at the end of the tube is positioned to cover the hole. In both cases, a glass frit paste is then applied all around the glass metal interface. This is followed by heating so that the frit softens and becomes a glass-to-metal seal. Once the structure has cooled down the attached metal tube is used as a pumping port to evacuate it and, while still under vacuum, the metal tube is pinched off to form a permanent seal.
    • 一种用于永久性地密封玻璃外壳内的超高真空的方法。 这是通过首先在形成外壳的平板之一中形成孔或者在分隔板之间的一个支座中形成孔,然后将金属管密封到玻璃上来实现的。 在一个实施例中,金属管被定位成部分地位于孔的内部,而在另一个中,管的端部处的凸缘定位成覆盖孔。 在这两种情况下,将玻璃料浆料全部涂覆在玻璃金属界面周围。 然后加热,使得玻璃料软化并变成玻璃 - 金属密封。 一旦结构冷却,附接的金属管就被用作泵送口以将其排空,并且在真空下仍然夹住金属管以形成永久密封。
    • 8. 发明申请
    • Light source system and control method of light source system
    • 光源系统光源系统及其控制方法
    • US20060256554A1
    • 2006-11-16
    • US11412096
    • 2006-04-27
    • Kuang-Lung TsaiTom Po
    • Kuang-Lung TsaiTom Po
    • F21V23/02F21S4/00
    • H05B41/3922
    • A light source system includes a light unit, a control unit, a light detector and a determining unit. In this case, the control unit is used to drive the light unit. The light detector is for detecting the brightness of the light unit, and generates a brightness detection signal based on the brightness of the light unit. The determining unit receives the brightness detection signal so as to determine whether the brightness of the light unit is equal to a predetermined value or not. When the brightness of the light unit is not equal to the predetermined value, the determining device then outputs a control signal to the control unit. The control unit generates an adjustment signal based on the control signal so as to adjust the brightness of the light unit.
    • 光源系统包括光单元,控制单元,光检测器和确定单元。 在这种情况下,控制单元用于驱动灯单元。 光检测器用于检测光单元的亮度,并且基于光单元的亮度产生亮度检测信号。 确定单元接收亮度检测信号,以便确定光单元的亮度是否等于预定值。 当光单元的亮度不等于预定值时,确定装置然后将控制信号输出到控制单元。 控制单元基于控制信号生成调整信号,以调节光单元的亮度。
    • 10. 发明授权
    • Planar color lamp with nanotube emitters and method for fabricating
    • 具有纳米管发射体的平面彩色灯和制造方法
    • US06426590B1
    • 2002-07-30
    • US09482583
    • 2000-01-13
    • Feng-Yu ChungWen-Chun WangKuang-Lung Tsai
    • Feng-Yu ChungWen-Chun WangKuang-Lung Tsai
    • H01J162
    • H01J61/305B82Y10/00B82Y20/00G02F1/133621G02F2001/133622G02F2202/36H01J31/15H01J63/06H01J2201/30469Y10S977/952
    • A planar color lamp powered by field emission nanotube emitters and a method for fabricating such lamp are provided. The planar color lamp is constructed with a lamp chamber having at least three spaced-apart, serpentine-shaped emitter stacks formed on a base plate, and at least three spaced-apart, serpentine-shaped fluorescent coating strips formed on a cover plate wherein each of the fluorescent coating strips emits a primary color of red, green or blue when activated by electrons emitted from the nanotube emitter stacks. The nanotube emitter stacks can be advantageously formed by a low cost, thick film printing technique with a material of a mixture of a polymeric binder and nanometer dimensioned hollow fibers such as carbon, diamond or diamond-like carbon material. The present invention planar field emission color lamp provides the advantages of a backlight and color filters into a single compact package that can be fabricated at low cost.
    • 提供了一种由场致发射纳米管发射体供电的平面彩色灯及其制造方法。 平面彩色灯由具有形成在基板上的至少三个间隔开的蛇形发射体堆叠的灯室和形成在盖板上的至少三个间隔开的蛇形形状的荧光涂层条构成,其中每个 的荧光涂层条由从纳米管发射体堆叠发射的电子激活时发出红色,绿色或蓝色的原色。 可以通过低成本,厚膜印刷技术形成纳米管发射极堆叠,其中聚合物粘合剂和纳米尺寸的中空纤维例如碳,金刚石或类金刚石碳材料的混合物的材料。 本发明的平面场发射彩色灯将背光和滤色器的优点提供到可以低成本制造的单个紧凑型封装中。