会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明授权
    • Atmospheric plasma apparatus and manufacturing method thereof
    • 大气等离子体装置及其制造方法
    • US08564199B2
    • 2013-10-22
    • US13318354
    • 2011-07-01
    • Maocheng YanHsiang-Yin Shih
    • Maocheng YanHsiang-Yin Shih
    • H01J17/06H01J17/04
    • H01J37/32348H01J37/32568H01J37/32825
    • An atmospheric plasma apparatus and a method for manufacturing the same are disclosed. The atmospheric plasma apparatus includes an anode, a cathode, and an insulation medium disposed between the anode and the cathode. An ionizable gas is filled between the anode and the cathode. The cathode includes a plurality of plasma generating and removing units, each of which includes a plasma generating region and a plasma removing region. The plasma generating regions and the plasma removing regions are distributed uniformly and equal to each other in area. Any two plasma removing regions among every three plasma removing regions which are adjacent to each other have a same center-to-center distance. In this way, erosion caused by the plasma to the cathode and the insulation medium may be reduced to prolong the service life of the atmospheric plasma apparatus, and uniformity of cleaning of a substrate surface may be improved.
    • 公开了一种大气等离子体装置及其制造方法。 大气等离子体装置包括阳极,阴极和布置在阳极和阴极之间的绝缘介质。 在阳极和阴极之间填充可电离气体。 阴极包括多个等离子体产生和去除单元,每个等离子体产生和去除单元包括等离子体产生区域和等离子体去除区域。 等离子体产生区域和等离子体去除区域在区域中均匀分布相等。 在彼此相邻的每三个等离子体移除区域中的任何两个等离子体去除区域具有相同的中心到中心距离。 以这种方式,可以减少由等离子体对阴极和绝缘介质引起的侵蚀,以延长大气等离子体装置的使用寿命,并且可以提高基板表面的清洁的均匀性。
    • 5. 发明申请
    • Atmospheric Plasma Apparatus and Manufacturing Method Thereof
    • 大气等离子体装置及其制造方法
    • US20120319579A1
    • 2012-12-20
    • US13318354
    • 2011-07-01
    • Maocheng YanHsiang-Yin Shih
    • Maocheng YanHsiang-Yin Shih
    • H01J17/06H01J9/395
    • H01J37/32348H01J37/32568H01J37/32825
    • An atmospheric plasma apparatus and a method for manufacturing the same are disclosed. The atmospheric plasma apparatus includes an anode, a cathode, and an insulation medium disposed between the anode and the cathode. An ionizable gas is filled between the anode and the cathode. The cathode includes a plurality of plasma generating and removing units, each of which includes a plasma generating region and a plasma removing region. The plasma generating regions and the plasma removing regions are distributed uniformly and equal to each other in area. Any two plasma removing regions among every three plasma removing regions which are adjacent to each other have a same center-to-center distance. In this way, erosion caused by the plasma to the cathode and the insulation medium may be reduced to prolong the service life of the atmospheric plasma apparatus, and uniformity of cleaning of a substrate surface may be improved.
    • 公开了一种大气等离子体装置及其制造方法。 大气等离子体装置包括阳极,阴极和布置在阳极和阴极之间的绝缘介质。 在阳极和阴极之间填充可电离气体。 阴极包括多个等离子体产生和去除单元,每个等离子体产生和去除单元包括等离子体产生区域和等离子体去除区域。 等离子体产生区域和等离子体去除区域在区域中均匀分布相等。 在彼此相邻的每三个等离子体移除区域中的任何两个等离子体去除区域具有相同的中心到中心距离。 以这种方式,可以减少由等离子体对阴极和绝缘介质引起的侵蚀,从而延长大气等离子体装置的使用寿命,并且可以提高衬底表面的清洁均匀性。
    • 6. 发明授权
    • Compact high current rare-earth emitter hollow cathode for hall effect thrusters
    • 紧凑型大电流稀土发射器空心阴极,用于霍尔效应推进器
    • US08143788B2
    • 2012-03-27
    • US12202252
    • 2008-08-30
    • Richard R. HoferDan M. GoebelRonnie M. Watkins
    • Richard R. HoferDan M. GoebelRonnie M. Watkins
    • H01J17/06
    • H01J1/025B64G1/405F03H1/0025H01J3/027
    • An apparatus and method for achieving an efficient central cathode in a Hall effect thruster is disclosed. A hollow insert disposed inside the end of a hollow conductive cathode comprises a rare-earth element and energized to emit electrons from an inner surface. The cathode employs an end opening having an area at least as large as the internal cross sectional area of the rare earth insert to enhance throughput from the cathode end. In addition, the cathode employs a high aspect ratio geometry based on the cathode length to width which mitigates heat transfer from the end. A gas flow through the cathode and insert may be impinged by the emitted electrons to yield a plasma. One or more optional auxiliary gas feeds may also be employed between the cathode and keeper wall and external to the keeper near the outlet.
    • 公开了一种在霍尔效应推进器中实现高效中心阴极的装置和方法。 设置在中空导电阴极的端部内部的中空插入件包括稀土元素并被激发以从内表面发射电子。 阴极采用具有至少与稀土插入件的内部横截面积相同的面积的端部开口,以增加从阴极端部的通过量。 此外,阴极采用基于阴极长度至宽度的高纵横比几何形状,其减小了端部的热传递。 通过阴极和插入件的气体流可以被发射的电子撞击以产生等离子体。 还可以在阴极和保持器壁之间使用一个或多个可选的辅助气体进料并且在出口附近的保持器的外部。
    • 8. 发明授权
    • Gas-filled discharge path in a form of a spark gap or an overvoltage
diverter
    • 气体充放电路径为火花隙或过电压分流器
    • US5995355A
    • 1999-11-30
    • US101603
    • 1998-07-10
    • Wolfgang Daeumer
    • Wolfgang Daeumer
    • H01J17/06H01T1/22H02H1/00
    • H01T1/22H01J17/06
    • In order to optimize the so-called light-dark effect, i.e., the difference in ignition voltage between the first and second ignition after dark storage in gas-filled discharge paths, an additional component made of an oxide compound of cesium and a transition metal such as tungsten, chromium, niobium, vanadium or molybdenum is added in a quantity of 5 to 25% by weight to the activating compound which is comprised of several components. The other components of the activating compound include a barium compound and a transition metal in metallic form such as titanium, and an alkaline halide or an alkaline earth halide and/or sodium silicate and/or potassium silicate as a basic component.
    • PCT No.PCT / DE97 / 00055 Sec。 371日期:1998年7月10日 102(e)1998年7月10日PCT PCT 1997年1月8日PCT公布。 公开号WO97 / 25760 PCT 日期1997年7月17日为了优化所谓的暗暗效应,即在气体填充放电路径中暗存储之后的第一和第二点火之间的点火电压的差异,由氧化物化合物 铯和过渡金属如钨,铬,铌,钒或钼以5至25重量%的量加入到由几种组分组成的活化化合物上。 活化化合物的其它组分包括钡化合物和金属形式的过渡金属如钛,碱性卤化物或碱土金属卤化物和/或硅酸钠和/或硅酸钾作为基本组分。
    • 10. 发明授权
    • Diamond electron emitter
    • 金刚石电子发射体
    • US5952772A
    • 1999-09-14
    • US10063
    • 1998-01-21
    • Neil Anthony FoxWang Nang Wang
    • Neil Anthony FoxWang Nang Wang
    • H01J1/308H01J1/304H01J1/312H01J17/06H01J61/067H01J63/02H01J63/08H01J29/46
    • H01J1/304H01J17/066H01J61/0677H01J2201/30457H01J61/78
    • An electron emitter (2) has a semiconductor substrate (20) doped with an n-type region (21). A diamond layer (24) is doped by ion implantation with a p-type dopant to form a graded dopant profile region (27) that increases away from the upper surface of the diamond layer (24) and a thin insulating region (28) separating the p-type region (27) from the n-type region (21). The emitter (2) has a first electrical contact (23) on a lower surface of the substrate (20) and a second electrical contact (25) on the upper surface of the diamond layer (24) such that a voltage can be applied across the emitter (2) to cause tunneling of electrons from the n-type region (21) through the insulating region (28) into the p-type region (27), causing emission of electrons from an exposed surface (29). A lamp or display (1) includes several such electron emitters (2) and contains gas at reduced pressure, which is ionized by the emitted electrons, thereby generating UV radiation, which causes a fluorescent layer (5) on a transparent window (3) to produce visible light.
    • 电子发射体(2)具有掺杂有n型区域(21)的半导体衬底(20)。 金刚石层(24)通过用p型掺杂剂的离子注入掺杂以形成从金刚石层(24)的上表面增加的渐变掺杂物分布区域(27)和分离的薄绝缘区域(28) 来自n型区域(21)的p型区域(27)。 发射极(2)在衬底(20)的下表面上具有第一电接触(23),并且在金刚石层(24)的上表面上具有第二电接触(25),使得可跨越 所述发射极(2)使电子从所述n型区域(21)穿过所述绝缘区域(22)穿透到所述p型区域(27)中,从而暴露出来的表面(29)发射电子。 灯或显示器(1)包括几个这样的电子发射器(2),并且包含减压的气体,其被发射的电子电离,从而产生紫外线辐射,其在透明窗口(3)上引起荧光层(5) 以产生可见光。