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    • 11. 发明申请
    • PORTABLE MICROWAVE PLASMA SYSTEMS INCLUDING A SUPPLY LINE FOR GAS AND MICROWAVES
    • 便携式微波等离子体系统,包括气体和微波的供应线
    • WO2006137832A2
    • 2006-12-28
    • PCT/US2005028922
    • 2005-08-11
    • AMARANTE TECHNOLOGIES INCNORITSU KOKI CO LTDLEE SANG HUNKIM JAY JOONGSOOKINOSHITA TOGO
    • LEE SANG HUNKIM JAY JOONGSOOKINOSHITA TOGO
    • H05H1/24
    • H05H1/46H05H2001/4622H05H2245/1225
    • A portable microwave plasma system (10) includes a microwave supply unit (22), a waveguide-to-coax adapter (18) and a waveguide (20) that interconnects the microwave supply unit (22) with the waveguide-to-coax adapter (18), a portable discharge unit (12) and a supply line (16). The supply line (16) includes at least one gas line (62) and a microwave coaxial cable (64). The portable discharge unit (12) includes: a gas flow tube (42) coupled to the supply line (16) to receive gas flow; and a rod-shaped conductor (44) that is axially disposed in the gas flow tube (42) and has an end configured to receive microwaves from the microwave coaxial cable (64) and a tip (46) positioned adjacent the outlet portion of the gas flow tube (42). The tip (46) is configured to focus microwave traveling through the rod-shaped conductor (44) and generate plasma from the gas flow.
    • 便携式微波等离子体系统(10)包括微波提供单元(22),波导到同轴适配器(18)和波导(20),其将微波供应单元(22)与波导到同轴电缆适配器 (18),便携式放电单元(12)和供给管线(16)。 供应管线(16)包括至少一条气体管线(62)和微波同轴电缆(64)。 便携式排放单元(12)包括:气体流管(42),其耦合到供应管线(16)以接收气流; 以及杆状导体(44),其轴向地设置在所述气体流管(42)中并且具有被配置为从所述微波同轴电缆(64)接收微波的端部和邻近所述微波同轴电缆的出口部分定位的尖端(46) 气流管(42)。 尖端(46)被配置为聚焦通过杆状导体(44)行进的微波并且从气流产生等离子体。
    • 12. 发明申请
    • SYSTEMS FOR MONITORING POWER CONSUMPTION
    • 用于监测消耗功率的系统
    • WO2011119202A3
    • 2011-12-29
    • PCT/US2011000495
    • 2011-03-18
    • AMARANTE TECHNOLOGIES INCLEE SANG
    • LEE SANG
    • G01R22/06G01R19/165
    • G05B15/02H02J2003/143Y02B70/3266Y04S20/242
    • Systems (210) for monitoring power consumption. The system (210) includes at least one circuit breaker (122k) having a sensor (140) for measuring current flowing through the circuit breaker (122k) and for sending a sensor signal commensurate with the current and a first electrical connector (146) connected to the sensor (140). The system (210) also includes a controller (19) spaced apart from the circuit breaker (122k) and adapted to receive the sensor signal from the circuit breaker (122k), a second electrical connector (148) adapted to detachably engage the first electrical connector (146) and connected to the controller (19), and an external device (204) for communicating an electrical signal with the controller (19) to control the controller (19).
    • 用于监控功耗的系统(210)。 系统(210)包括至少一个断路器(122k),该断路器具有传感器(140),用于测量流过断路器(122k)的电流,并发送与电流相当的传感器信号和连接的第一电连接器(146) 到传感器(140)。 系统(210)还包括与断路器(122k)间隔开并适于接收来自断路器(122k)的传感器信号的控制器(19),适于可拆卸地接合第一电气 连接器(146)并连接到控制器(19),以及用于与控制器(19)通信电信号以控制控制器(19)的外部设备(204)。
    • 14. 发明申请
    • PLASMA NOZZLE ARRAY FOR PROVIDING UNIFORM SCALABLE MICROWAVE PLASMA GENERATION
    • 用于提供均匀可扩展微波等离子体生成的等离子喷嘴阵列
    • WO2006014862A3
    • 2007-01-18
    • PCT/US2005026280
    • 2005-07-21
    • AMARANTE TECHNOLOGIES INCNORITSU KOKI CO LTDLEE SANG HUNKIM JAY JOONGSOO
    • LEE SANG HUNKIM JAY JOONGSOO
    • H05H1/46H01J37/32
    • H01J37/32192A61L2/14H05H1/46H05H2001/4622
    • The present invention provides microwave plasma nozzle array systems (10, 70, 230, and 310) and methods for configuring microwave plasma nozzle arrays (37, 99, and 337). The microwaves are transmitted to a microwave cavity (323) in a specific manner and form an interference pattern (66) that includes high-energy regions (69) within the microwave cavity (32). The high-energy regions (69) are controlled by the phases and the wavelengths of the microwaves. A plurality of nozzle elements (36) is provided in the array (37). Each of the nozzle elements (36) has a portion (116) partially disposed in the microwave cavity (32) and receives a gas for passing therethrough. The nozzle elements (36) receive microwave energy from one of the high-energy regions (69). Each of the nozzle elements (36) includes a rod-shaped conductor (114) having a tip (117) that focuses on the microwaves and a plasma (38) is then generated using the received gas.
    • 本发明提供微波等离子体喷嘴阵列系统(10,70,230和310)以及用于配置微波等离子体喷嘴阵列(37,99和337)的方法。 微波以特定的方式传送到微波腔(323)并形成包括微​​波腔(32)内的高能区域(69)的干涉图案(66)。 高能区(69)由微波的相位和波长控制。 在阵列(37)中设置有多个喷嘴元件(36)。 每个喷嘴元件(36)具有部分地布置在微波腔(32)中的部分(116)并且接收用于通过的气体。 喷嘴元件(36)从高能区域(69)之一接收微波能量。 每个喷嘴元件(36)包括具有聚焦在微波上的尖端(117)的棒状导体(114),然后使用所接收的气体产生等离子体(38)。
    • 15. 发明申请
    • PLASMA NOZZLE ARRAY FOR PROVIDING UNIFORM SCALABLE MICROWAVE PLASMA GENERATION
    • 用于提供均匀可扩展微波等离子体生成的等离子喷嘴阵列
    • WO2006014862A2
    • 2006-02-09
    • PCT/US2005/026280
    • 2005-07-21
    • AMARANTE TECHNOLOGIES, INC.NORITSU KOKI CO., LTD.LEE, Sang, HunKIM, Jay, Joongsoo
    • LEE, Sang, HunKIM, Jay, Joongsoo
    • H05H1/46
    • H01J37/32192A61L2/14H05H1/46H05H2001/4622
    • The present invention provides microwave plasma nozzle array systems (10, 70, 230, and 310) and methods for configuring microwave plasma nozzle arrays (37, 99, and 337). The microwaves are transmitted to a microwave cavity (323) in a specific manner and form an interference pattern (66) that includes high-energy regions (69) within the microwave cavity (32). The high-energy regions (69) are controlled by the phases and the wavelengths of the microwaves. A plurality of nozzle elements (36) is provided in the array (37). Each of the nozzle elements (36) has a portion (116) partially disposed in the microwave cavity (32) and receives a gas for passing therethrough. The nozzle elements (36) receive microwave energy from one of the high-energy regions (69). Each of the nozzle elements (36) includes a rod-shaped conductor (114) having a tip (117) that focuses on the microwaves and a plasma (38) is then generated using the received gas.
    • 本发明提供微波等离子体喷嘴阵列系统(10,70,230和310)以及用于配置微波等离子体喷嘴阵列(37,99和337)的方法。 微波以特定的方式传送到微波腔(323)并形成包括微​​波腔(32)内的高能区域(69)的干涉图案(66)。 高能区(69)由微波的相位和波长控制。 在阵列(37)中设置有多个喷嘴元件(36)。 每个喷嘴元件(36)具有部分地布置在微波腔(32)中的部分(116)并且接收用于通过的气体。 喷嘴元件(36)从高能区域(69)之一接收微波能量。 每个喷嘴元件(36)包括具有聚焦在微波上的尖端(117)的棒状导体(114),然后使用所接收的气体产生等离子体(38)。
    • 16. 发明申请
    • GAS CONVERSION SYSTEM
    • 气体转换系统
    • WO2013003164A3
    • 2013-04-18
    • PCT/US2012043421
    • 2012-06-21
    • AMARANTE TECHNOLOGIES INCTANIBATA TORUKOO JAE-MOLEE SANG HUN
    • TANIBATA TORUKOO JAE-MOLEE SANG HUN
    • B01J19/12B01J7/00C01B32/50
    • H05H1/46H05H2001/4622
    • A gas conversion system (1) using microwave plasma is provided. The system (1) includes: a microwave waveguide (24); a gas flow tube (26) passing through a microwave waveguide (24) and configured to transmit microwaves therethrough; a temperature controlling means (241) for controlling a temperature of the microwave waveguide (24); a temperature sensor (29) disposed near the gas flow tube (26) and configured to measure a temperature of gas flow tube (26) or microwave waveguide (24); an igniter (28) located near the gas flow tube (26) and configured to ignite a plasma inside the gas flow tube (26) so that the plasma converts a gas flowing through the gas flow tube (26) during operation; and a plasma detector (30) located near the gas flow tube (26) and configured to monitor the plasma.
    • 提供一种使用微波等离子体的气体转换系统(1)。 系统(1)包括:微波波导(24); 气流管(26),其穿过微波波导(24)并且被配置为通过其传输微波; 温度控制装置(241),用于控制微波波导(24)的温度; 设置在所述气流管(26)附近并构造成测量气流管(26)或微波波导(24)的温度的温度传感器(29); 位于气流管(26)附近且配置成点燃气流管(26)内部的等离子体的点火器(28),使得等离子体在操作期间转换流过气流管(26)的气体; 和位于气流管(26)附近并且被配置成监测等离子体的等离子体检测器(30)。
    • 17. 发明申请
    • SYSTEMS FOR MONITORING POWER CONSUMPTION
    • 用于监测功率消耗的系统
    • WO2011119202A2
    • 2011-09-29
    • PCT/US2011/000495
    • 2011-03-18
    • AMARANTE TECHNOLOGIES, INC.LEE, Sang
    • LEE, Sang
    • G01R22/06G01R19/165
    • G05B15/02H02J2003/143Y02B70/3266Y04S20/242
    • Systems (210) for monitoring power consumption. The system (210) includes at least one circuit breaker (122k) having a sensor (140) for measuring current flowing through the circuit breaker (122k) and for sending a sensor signal commensurate with the current and a first electrical connector (146) connected to the sensor (140). The system (210) also includes a controller (19) spaced apart from the circuit breaker (122k) and adapted to receive the sensor signal from the circuit breaker (122k), a second electrical connector (148) adapted to detachably engage the first electrical connector (146) and connected to the controller (19), and an external device (204) for communicating an electrical signal with the controller (19) to control the controller (19).
    • 用于监视功耗的系统(210)。 系统(210)包括至少一个断路器(122k),其具有用于测量流经断路器(122k)的电流并且用于发送与电流相称的传感器信号的传感器(140)和连接的第一电连接器(146) 到传感器(140)。 系统(210)还包括与断路器(122k)间隔开并适于接收来自断路器(122k)的传感器信号的控制器(19),适于可拆卸地接合第一电气装置 连接器(146)并连接到控制器(19);以及外部设备(204),用于与控制器(19)传递电信号以控制控制器(19)。
    • 20. 发明申请
    • CLOSED-LOOP CONTROL OF ULTRAVIOLET (UV) STERILIZATION SYSTEMS
    • 紫外(UV)灭菌系统的闭环控制
    • WO2007008879A3
    • 2007-12-21
    • PCT/US2006026858
    • 2006-07-10
    • AMARANTE TECHNOLOGIES INCTOM CURTISHERBETTE MATHIEUWEIHE ORION
    • TOM CURTISHERBETTE MATHIEUWEIHE ORION
    • A61L2/10
    • A61L2/10A61L2/24A61L2/28
    • Devices (100) and methods for controlling an ultraviolet (UV) sterilization system that has one or more UV sources to achieve proper sterilization. The UV sources (112) are operated according to a set of control parameters including intensity of the UV light energy and an exposure time. The device (100) may include: one or more sensors (124, 128) that are configured to measure UV light energy emitted by the UV sources (112) and develop one or more signals; and a microcontroller (314) that has an access to information of UV energy doses for various types of microorganisms. The microcontroller (314) is configured to receive the signals from the sensors (124, 128), determine a set of optimum values corresponding to the set of control parameters using the signals and the information, and send the set of optimum values to the UV sources (112) to control the UV sources.
    • 装置(100)和用于控制具有一个或多个UV源的紫外(UV)消毒系统以实现适当消毒的方法。 根据包括UV光能量强度和曝光时间的一组控制参数来操作UV源(112)。 设备(100)可以包括:一个或多个传感器(124,128),其被配置为测量由UV源(112)发射的UV光能并产生一个或多个信号; 和微控制器(314),其可访问各种类型的微生物的UV能量剂量的信息。 微控制器(314)被配置为接收来自传感器(124,128)的信号,使用信号和信息确定对应于该组控制参数的一组最佳值,并将该组最佳值发送到UV 来源(112)来控制UV源。