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    • 1. 发明申请
    • GRID LOAD SYNCHRONIZATION DEVICE AND METHOD
    • 网路负载同步装置及方法
    • US20130116844A1
    • 2013-05-09
    • US13513024
    • 2010-12-03
    • John M. McNallyPeter Gottlieb
    • John M. McNallyPeter Gottlieb
    • H02J3/14
    • H02J3/14H02J3/08H02J3/32Y02B70/3225Y04S20/222
    • The grid load synchronization system described herein permits proactive mitigation of the effects of large loads transitioning on and off the power grid and the resultant risks and power quality issues associated therewith. The disclosed proactive system permits a grid-connected power consumer to synchronize demand with power storage equipment in real time using a digital communication link. The power consumer transmits requests to bring a load online or offline to a control site. The control site coordinates power grid source(s) and power grid loads to maintain power quality when loads go on and offline. The control sites manage requests from multiple power consumers and schedule the various loads for the consumers to mitigate the effects of large loads transitioning on and off the power grid. The resulting power quality can be guaranteed when adequate battery resources are made proactively available, rather than reacting to line conditions to engage compensation actions.
    • 本文描述的电网负载同步系统允许主动减轻大电力负载过渡电网的影响以及由此产生的风险和电力质量问题。 所公开的主动系统允许并网电力消费者使用数字通信链路实时地同步电力存储设备的需求。 电力消费者传送请求以将在线或离线的负载带到控制站点。 控制站点协调电网源和电网负载,以便在负载上下电时保持电源质量。 控制站点管理来自多个电力消费者的请求,并为消费者安排各种负载,以减轻负载过大和过电网的大负载的影响。 当主动获得足够的电池资源时,可以保证所产生的电力质量,而不是对线路条件作出反应以采取补偿行动。
    • 3. 发明申请
    • COMMUNICATION PORT IDENTIFICATION SYSTEM
    • 通信港口识别系统
    • US20100267274A1
    • 2010-10-21
    • US12738042
    • 2008-10-17
    • John M. McNallyShahriar B. AllenSatish I. Patel
    • John M. McNallyShahriar B. AllenSatish I. Patel
    • H01R3/00
    • H04Q1/136
    • A communication port identification system enables an intelligent interconnect patch panel to reliably track connections to network switches. Network switch ports are provided with port ID modules that are inserted into the ports. Intelligent interconnect patch cords each utilize a patch cord microcontroller and out-of-band conductors to enable communication between an intelligent interconnect patch panel and the port ID modules of the switch port. Each port ID module is provided with a unique identification number, and the intelligent interconnect patch panel is thereby able to track all of its connections to the port ID modules in real time, and to update a network management system accordingly.
    • 通信端口识别系统使得智能互连接线板能够可靠地跟踪到网络交换机的连接。 网络交换机端口提供插入端口的端口ID模块。 智能互连跳线各自使用跳线微控制器和带外导体,以实现智能互连接线板与交换机端口的端口ID模块之间的通信。 每个端口ID模块具有唯一的标识号,智能互连接线板由此能够实时跟踪其与端口ID模块的所有连接,并相应地更新网络管理系统。
    • 5. 发明授权
    • Condensate removal system
    • 冷凝清除系统
    • US06745590B1
    • 2004-06-08
    • US10341705
    • 2003-01-13
    • Rollie R. JohnsonJohn M. McNallyJohn BeanGregory R. UhrhanDavid N. Susek
    • Rollie R. JohnsonJohn M. McNallyJohn BeanGregory R. UhrhanDavid N. Susek
    • F25D2100
    • F25D21/14F24F13/222F24F2003/1678F24F2006/125F24F2013/225Y02B30/80
    • A condensate removal system is provided for use in association or connection with equipment that produces a liquid or condensate during operation. The condensate removal system is configured to receive a liquid or condensate produced by equipment and is configured to induce the liquid or condensate to flow from the system as liquid or condensate droplets and/or liquid or condensate vapor. The system is configured to contain and to vibrate a liquid or condensate received from equipment in an ultrasonic frequency zone to induce the liquid or condensate to form into droplets and/or vapors. The system is configured and arranged to force the droplets and vapors from the system and can be further configured to expel the droplets and vapors to an area external to the system and/or into a duct, for instance, to exhaust the droplets and vapors or to recirculate the droplets and vapor to equipment to provide cooling to the equipment and/or components of the equipment.
    • 提供冷凝物去除系统,用于与在运行期间产生液体或冷凝物的设备相关联或连接。 冷凝物去除系统被配置为接收由设备产生的液体或冷凝物,并且被配置为引起液体或冷凝物作为液体或冷凝物液滴和/或液体或冷凝物蒸汽从系统流出。 该系统被配置为容纳并振动从超声波频率区域中的设备接收的液体或冷凝物,以引起液体或冷凝物形成液滴和/或蒸汽。 该系统被配置和布置成迫使液滴和蒸气从系统中受力,并且可进一步构造成将液滴和蒸汽排出到系统外部区域和/或流入管道中,例如排出液滴和蒸气或 将液滴和蒸汽再循环到设备中以向设备和/或设备的部件提供冷却。
    • 9. 发明授权
    • Power shedding device
    • 断电装置
    • US5534734A
    • 1996-07-09
    • US164160
    • 1993-12-09
    • William C. PughJohn M. McNally
    • William C. PughJohn M. McNally
    • H02J3/14H02J9/06
    • H02J9/062H02J3/14Y02B70/3225Y02B70/3291Y04S20/222Y04S20/248Y10T307/461Y10T307/469Y10T307/477Y10T307/625
    • A power shedding device controls the application of power from an uninterruptible power supply (UPS). It includes circuitry for detecting an alarm signal indicative of a condition requiring the rationing of power from the UPS, and a plurality of power outlets for connection to a plurality of loads such as computers, printers, and other associated devices. A microprocessor controls the application of power to each power outlet pursuant to program control such that the application of power to a first power output is independent of the application of power to a second power output. Manually operable switches are provides for presetting shedding profiles for the power outlets during a shutdown procedure. The processor is responsive to receipt of an alarm signal to shed each power output in accordance with its corresponding manually preset shedding profile. A low UPS battery alarm results in an override of the shedding profiles if the remaining time to shutdown for an outlet exceeds a predetermined limit. The processor is responsive to alarms from the UPS as well as to an auxiliary alarm. The power shedding device may be used with existing UPS monitoring software without modification. Power outlets are also manually selectable or deselectable by the user if desired. In addition provision is made for power recycling of all power outlets regardless of when power returns.
    • 断电装置控制来自不间断电源(UPS)的电力的应用。 它包括用于检测指示需要来自UPS的电力配给的状况的报警信号的电路,以及用于连接到诸如计算机,打印机和其它相关设备的多个负载的多个电源插座。 微处理器根据程序控制器控制对每个电源插座的电源的应用,使得对第一功率输出的功率的施加与对第二功率输出的功率的应用无关。 可手动操作的开关用于在关机过程中预设电源插座的脱落配置文件。 处理器响应于接收到报警信号,以根据其相应的手动预设脱落简档来分配每个功率输出。 如果出口关闭的剩余时间超过预定限制,则低UPS电池警报会导致脱落配置文件的超驰。 处理器响应来自UPS的报警以及辅助报警。 断电装置可以与现有的UPS监控软件一起使用,无需修改。 如果需要,电源插座也可以由用户手动选择或取消选择。 另外还规定了所有电源插座的电源回收,不管电源何时返回。