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1. 发明授权

US09972484B2 Plasma illumination device with microwave pump 有权
公开(公告)号：US09972484B2
公开(公告)日：2018-05-15
申请号：US15519095
申请日：2015-10-07
申请人： NovStream LLC
发明人： Vitaly Vladimirovich Lazorin , Anatoly Isaakovich Pipko , Nikolay Igorevich Skripkin
IPC分类号： H01J61/52 , H01J65/04 , H01J61/30 , H01J61/36
CPC分类号： H01J65/044 , H01J61/30 , H01J61/34 , H01J61/36 , H01J61/52
摘要： The present disclosure describes a plasma illumination device with microwave pumping, comprising: a hermetically sealed casing, a magnetron, a microwave resonator containing a rotatable electrodeless plasma lamp, a coaxial coupling line running parallel to the casing axis, for transmitting microwave power from the magnetron to the microwave resonator, at least one heat sink located on the inner walls of the casing and providing heat transfer through the casing to the external environment, and a light-transmitting hermetically sealed hollow cylinder fitted in a hermetically sealed way on the casing above the microwave resonator. This results in an illumination device with microwave pumping, which may be used to illuminate objects located in unfavorable environmental conditions, particularly those in which there is a high content of dust or other contaminants, or in an aqueous environment at great depths.

2. 发明授权

US09666424B1 Method and apparatus for operating a germicidal UV device with a programmable logic controller and a bluetooth low energy solution 有权
公开(公告)号：US09666424B1
公开(公告)日：2017-05-30
申请号：US15044103
申请日：2016-02-15
申请人： Peter Veloz , Ashish Mathur , Aleksandr Shostak , Richard Hayes , David Witham , Mitch Babkes , Filiberto Betancourt , Lev Rotkop , Stuart Tyrrell , Walt Maclay , Dan Brown
发明人： Peter Veloz , Ashish Mathur , Aleksandr Shostak , Richard Hayes , David Witham , Mitch Babkes , Filiberto Betancourt , Lev Rotkop , Stuart Tyrrell , Walt Maclay , Dan Brown
IPC分类号： A61L2/10 , A61L9/20 , H05K7/20 , H01J61/52 , H04W4/00
CPC分类号： H01J61/52 , A61L2/10 , A61L9/20 , H04W4/80
摘要： This invention employs a programmable logic controller (computer) with a specific wireless communication protocol (BLE) to allow for remote connectivity of the germicidal UV device to display the status of the disinfection cycle and to operate the device and send and transfer data wirelessly to the Cloud via the BLE interface.

3. 发明申请

US20170117131A1 SYSTEMS AND METHODS FOR DETERMINING THE SUITABILITY OF RF SOURCES IN ULTRAVIOLET SYSTEMS 有权
公开(公告)号：US20170117131A1
公开(公告)日：2017-04-27
申请号：US15317965
申请日：2015-07-06
申请人： NORDSON CORPORATION
发明人： James M. KHOURY
IPC分类号： H01J65/04 , H01R4/04 , H05B41/36 , H01R13/15 , H01J61/52 , H01J61/56
CPC分类号： H01J65/042 , H01J61/52 , H01J61/56 , H01J65/044 , H01R4/04 , H01R13/05 , H01R13/15 , H05B41/36
摘要： A UV system for irradiating a substrate includes a RF source capable of generating RF energy, a UV lamp capable of emitting UV energy when excited by the RF energy generated by the RF source, and a monitor coupled to the RF source. The monitor includes data relating to the RF source. The UV system further includes a controller capable of communication with the monitor, and the controller determines if the RF source is suitable for operation with the UV system based on the data of the monitor and/or the end of its useful life.

4. 发明授权

US09516733B1 Laser-sustained plasma light source 有权
标题翻译：激光持续等离子体光源
公开(公告)号：US09516733B1
公开(公告)日：2016-12-06
申请号：US14814636
申请日：2015-07-31
申请人： KLA-Tencor Corporation
发明人： Ilya Bezel , Anatoly Shchemelinin , Yanming Zhao , Gildardo R. Delgado
IPC分类号： H01J1/02 , H05H1/24 , H01J61/09 , H01J23/033
CPC分类号： H05H1/24 , H01J1/025 , H01J23/033 , H01J61/09 , H01J61/28 , H01J61/52 , H01J61/54 , H01J61/545 , H01J65/042
摘要： A method for producing a laser sustained plasma light by directing at least one laser into a gas volume and igniting a plasma that produces a light. Heated portions of the gas volume are removed from the plasma and cooled. The cooled portions of the gas volume are returned to the plasma in a laminar flow. The light is collected with a reflector and provided to a desired location.
摘要翻译：一种通过将至少一个激光引入气体体积并点燃产生光的等离子体来产生激光持续等离子体光的方法。从等离子体中除去气体体积的加热部分并冷却。气体体积的冷却部分以层流返回到等离子体。光被反射器收集并提供到期望的位置。

5. 发明申请

US20160064204A1 Intelligent Radio-Controlled Plasma Light 有权
标题翻译：智能无线电等离子灯
公开(公告)号：US20160064204A1
公开(公告)日：2016-03-03
申请号：US14843939
申请日：2015-09-02
申请人： iUNU, LLC
发明人： Adam Phillip Takla Greenberg , Kyle Terrence James Rooney , Travis Anthony Conrad
IPC分类号： H01J65/04 , H05B37/02 , A01G7/04 , H01J61/52
CPC分类号： H01J65/042 , A01G7/045 , H01J61/52 , H05B37/0227 , H05B37/0245 , H05B41/24 , H05B41/2806 , Y02P60/146
摘要： The user of plasma light technology and remote lighting control techniques may enable a single master controller to control a large number of lighting fixtures. Multiple lighting fixtures may be equipped with control applications. Each control application may control the radio frequency driver of a lighting fixture that drives the plasma bulbs of the lighting fixture to produce light output for growing plants. The master controlled may execute on one or more computing devices. The master controller may send input instructions to the control applications of the lighting fixtures via a network. The instructions may be implemented by the control applications to command the radio frequency drivers to regulate a spectral distribution and/or intensity of the light output of the lighting fixtures.
摘要翻译：等离子体光技术和远程照明控制技术的用户可以使单个主控制器能够控制大量的照明装置。多个照明灯具可能配备有控制应用。每个控制应用可以控制驱动照明器具的等离子体灯泡的照明器具的射频驱动器以产生用于生长植物的光输出。被控制的主机可以在一个或多个计算设备上执行。主控制器可以通过网络向照明灯具的控制应用发送输入指令。指令可以由控制应用来实现，以指示射频驱动器调节照明器具的光输出的光谱分布和/或强度。

6. 发明授权

US09197869B2 Video display device and cooling system 有权
标题翻译：视频显示设备和冷却系统
公开(公告)号：US09197869B2
公开(公告)日：2015-11-24
申请号：US13920233
申请日：2013-06-18
申请人： Sony Corporation
发明人： Yoshiro Asano
IPC分类号： G03B21/16 , H04N9/31 , F28F1/00 , G06F1/20 , H01J61/02 , H01J61/52
CPC分类号： H04N9/3144 , F28F1/00 , G03B21/16 , G06F1/206 , H01J61/025 , H01J61/52 , H04N9/3105
摘要： A video display device includes: a video processing unit including a light source and optical components, which generates and displaying video signals; and a cooling mechanism unit cooling the light source and the optical components, wherein the cooling mechanism unit includes an air cooling fan generating cooling air for cooling the optical components to be circulated in the device, a heat exchanger arranged in a flow path of the circulating cooling air, performing heat exchange of the cooling air obtained after the cooling of the optical components from a high temperature to a low temperature, a cooler cooling heat generated in the light source and heat generated in the heat exchanger by a cooling liquid, and a circulating thermal regulator circulating the cooling liquid with respect to the cooler while managing a liquid temperature of the cooling liquid so as to be a constant temperature.
摘要翻译：视频显示装置包括：视频处理单元，包括产生和显示视频信号的光源和光学部件; 以及冷却所述光源和所述光学部件的冷却机构部，其中，所述冷却机构部包括：空气冷却风扇，其产生用于冷却所述装置中要循环的光学部件的冷却空气;布置在所述循环的流路中的热交换器冷却空气，在将光学部件从高温冷却到低温后获得的冷却空气进行热交换，在光源中产生的较冷的冷却热和通过冷却液在热交换器中产生的热量，以及循环热调节器将冷却液相对于冷却器循环，同时管理冷却液的液体温度，使其为恒定温度。

7. 发明授权

US09046748B2 Method of cooling a lamp 有权
标题翻译：冷却灯的方法
公开(公告)号：US09046748B2
公开(公告)日：2015-06-02
申请号：US13579456
申请日：2011-02-18
申请人： John-john Pieter Jan Van Den Bergh , Ludo Valère Maurice Schreel , Stijn Lenni Robbert De Vijlder , Kristin Annemie Dirk Gysels , Jasper Cuyvers
发明人： John-john Pieter Jan Van Den Bergh , Ludo Valère Maurice Schreel , Stijn Lenni Robbert De Vijlder , Kristin Annemie Dirk Gysels , Jasper Cuyvers
IPC分类号： G03B21/18 , G03B21/16 , H01J61/52
CPC分类号： G03B21/16 , H01J61/52
摘要： The invention describes a method of cooling a lamp (1) in a projector (2, 2′) independently of an orientation (Pdesk, Pceiling) of the projector (2, 2′), which method comprises directing a cooling airflow (4) symmetrically at a burner (10) of the lamp (1) during operation of the lamp (1); and controlling the cooling airflow (4) alternately between at least a first cooling level (C-I) and a second cooling level (C-II) such that, during cooling at the first cooling level (C-I), the temperature (Tbase) in a base region of the burner (10) drops below a predefined minimum operating temperature (Tmin) to allow a blackening of an inside wall (100) of the burner (10), and during cooling at the second cooling level (C-II), the temperature (Ttop) in an upper region of the burner (10) increases above a predefined maximum operating temperature (Tmax) and the temperature (Tbase) in the base region of the burner (10) increases above the predefined minimum operating temperature (Tmin) to facilitate a cleaning of the burner wall (100). The invention further describes a cooling module controller (31) for use in an orientation-independent cooling arrangement (30) of a projector (2, 2′); an orientation-independent cooling arrangement (30) for cooling a lamp (1) in a projector (2, 2′) independently of an orientation (Pdesk, Pceiling) of the projector (2, 2′); and a projector (2, 2′).
摘要翻译：本发明描述了一种与投影仪（2,2'）的方位（Pdesk，Pceiling）独立的方式来冷却投影仪（2,2'）中的灯（1）的方法，该方法包括引导冷却气流（4）在灯（1）的操作期间对称地在灯（1）的燃烧器（10）处; 并且在至少第一冷却水平（CI）和第二冷却水平（C-II）之间交替地控制冷却空气流（4），使得在第一冷却水平（CI）的冷却期间，在燃烧器（10）的基部区域下降到预定的最小工作温度（Tmin）以下，以允许燃烧器（10）的内壁（100）变黑，并且在第二冷却水平（C-II）的冷却期间，燃烧器（10）的上部区域中的温度（Ttop）增加到高于预定的最大工作温度（Tmax）并且燃烧器（10）的基部区域中的温度（T base）增加到超过预定的最小工作温度（Tmin ）以便于清洁燃烧器壁（100）。本发明还描述了一种用于投影仪（2,2'）的朝向不依赖的冷却装置（30）的冷却模块控制器（31）。独立于投影仪（2,2'）的方位（Pdesk，Pceiling）的用于冷却投影仪（2,2'）中的灯（1）的取向独立冷却装置（30）; 和投影仪（2,2'）。

8. 发明申请

US20140333203A1 RED EMITTING PHOSPHOR FOR PLASMA DISPLAY PANELS AND GAS DISCHARGE LAMPS 审中-公开
标题翻译：用于等离子体显示面板和气体放电灯的红色发射磷
公开(公告)号：US20140333203A1
公开(公告)日：2014-11-13
申请号：US14364849
申请日：2012-12-04
申请人： KONINKLIJKE PHILIPS N.V.
发明人： Georg Greuel , Thomas Juestel , Helga Bettentrup , Benjamin Herden , David Enseling
IPC分类号： H01J61/52 , C09K11/77 , H01J61/44 , G01J1/42 , H01J17/49 , H01J17/28
CPC分类号： H01J61/52 , C09K11/7706 , C09K11/7709 , C09K11/7712 , C09K11/7737 , C09K11/774 , C09K2211/182 , C09K2211/183 , G01J1/42 , H01J11/12 , H01J11/42 , H01J17/28 , H01J17/49 , H01J61/44 , H01J65/042 , H01J65/046
摘要： The invention provides a lighting unit (100) comprising (1) a vacuum ultraviolet (VUV) radiation based source of radiation (10) configured to generate VUV radiation (11), and (2) a luminescent material (20) configured to convert at least part of the VUV radiation into visible luminescent material light (21), wherein the luminescent material comprises a trivalent praseodymium containing material selected from the group consisting of (Zr1-x-yHfxPry)(Si1-yPy)04, (Zr1-x-yHfxPry)3((P1-3/4yS3/4y)04)4, and (Zr1-x-yHxPry)3((B1-3/4yX3/4y))O3)4, with x in the range of 0.0-1.0 and y being larger than 0 and being equal to or smaller than 0.15.
摘要翻译：本发明提供了一种照明单元（100），包括：（1）被配置为产生VUV辐射（11）的基于真空紫外（VUV）辐射的辐射源（10），以及（2）配置成在将所述VUV辐射的至少一部分转化为可见光发光材料光（21），其中所述发光材料包含选自（Zr1-x-yHfxPry）（Si1-yPy）04，（Zr1-x- yHfxPry）3（（P1-3 / 4yS3 / 4y）04）4和（Zr1-x-yHxPry）3（（B1-3 / 4yX3 / 4y））O3）4，x在0.0-1.0 并且y大于0并且等于或小于0.15。

9. 发明授权

US08796652B2 Laser sustained plasma bulb including water 有权
标题翻译：激光持续等离子体灯泡包括水
公开(公告)号：US08796652B2
公开(公告)日：2014-08-05
申请号：US13790084
申请日：2013-03-08
申请人： KLA-Tencor Corporation
发明人： Ilya Bezel , Anatoly Shchemelinin , Matthew Alan Panzer
IPC分类号： H05G2/00
CPC分类号： H01J61/02 , H01J61/12 , H01J61/125 , H01J61/14 , H01J61/16 , H01J61/28 , H01J61/302 , H01J61/52 , H01J61/54 , H01J65/04 , H01J65/042
摘要： A wafer inspection system includes a laser sustained plasma (LSP) light source that generates light with sufficient radiance to enable bright field inspection. Reliability of the LSP light source is improved by introducing an amount of water into the bulb containing the gas mixture that generates the plasma. Radiation generated by the plasma includes substantial radiance in a wavelength range below approximately 190 nanometers that causes damage to the materials used to construct the bulb. The water vapor acts as an absorber of radiation generated by the plasma in the wavelength range that causes damage. In some examples, a predetermined amount of water is introduced into the bulb to provide sufficient absorption. In some other examples, the temperature of a portion of the bulb containing an amount of condensed water is regulate to produce the desired partial pressure of water in the bulb.
摘要翻译：晶片检查系统包括激光持续等离子体（LSP）光源，其产生具有足够辐射度的光以实现明场检查。通过将一定量的水引入到含有产生等离子体的气体混合物的灯泡中来提高LSP光源的可靠性。由等离子体产生的辐射包括在低于约190纳米的波长范围内的实质辐射，这导致用于构建灯泡的材料的损坏。水蒸汽作为在等离子体产生的辐射的吸收体，在波长范围内引起损伤。在一些实例中，将预定量的水引入灯泡以提供足够的吸收。在一些其它实施例中，调节包含一定量冷凝水的灯泡的一部分的温度以产生灯泡中期望的水分压。

10. 发明申请

US20140042336A1 Laser Sustained Plasma Bulb Including Water 有权
标题翻译：激光持续等离子体灯泡包括水
公开(公告)号：US20140042336A1
公开(公告)日：2014-02-13
申请号：US13790084
申请日：2013-03-08
申请人： KLA-TENCOR CORPORATION
发明人： Ilya Bezel , Anatoly Shchemelinin , Matthew Alan Panzer
IPC分类号： H01J61/02
CPC分类号： H01J61/02 , H01J61/12 , H01J61/125 , H01J61/14 , H01J61/16 , H01J61/28 , H01J61/302 , H01J61/52 , H01J61/54 , H01J65/04 , H01J65/042
摘要： A wafer inspection system includes a laser sustained plasma (LSP) light source that generates light with sufficient radiance to enable bright field inspection. Reliability of the LSP light source is improved by introducing an amount of water into the bulb containing the gas mixture that generates the plasma. Radiation generated by the plasma includes substantial radiance in a wavelength range below approximately 190 nanometers that causes damage to the materials used to construct the bulb. The water vapor acts as an absorber of radiation generated by the plasma in the wavelength range that causes damage. In some examples, a predetermined amount of water is introduced into the bulb to provide sufficient absorption. In some other examples, the temperature of a portion of the bulb containing an amount of condensed water is regulate to produce the desired partial pressure of water in the bulb.
摘要翻译：晶片检查系统包括激光持续等离子体（LSP）光源，其产生具有足够辐射度的光以实现明场检查。通过将一定量的水引入到含有产生等离子体的气体混合物的灯泡中来提高LSP光源的可靠性。由等离子体产生的辐射包括在低于约190纳米的波长范围内的实质辐射，这导致用于构建灯泡的材料的损坏。水蒸汽作为在等离子体产生的辐射的吸收体，在波长范围内引起损伤。在一些实例中，将预定量的水引入灯泡以提供足够的吸收。在一些其它实施例中，调节包含一定量冷凝水的灯泡的一部分的温度以产生灯泡中期望的水分压。

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