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    • 1. 发明授权
    • Reactive power compensation to minimize step voltage changes and transients
    • 无功功率补偿,以最小化步进电压变化和瞬变
    • US06900619B2
    • 2005-05-31
    • US09449378
    • 1999-11-24
    • Arnold P. KehrliJohn A. Diaz De Leon, IIDouglas C. Folts
    • Arnold P. KehrliJohn A. Diaz De Leon, IIDouglas C. Folts
    • H02J3/18G05F1/70
    • H02J3/1828Y02E40/30
    • The invention features a system and approach for minimizing the step voltage change as seen by the utility customer as well minimizing transients imposed on the fundamental waveform of a normal voltage carried on a utility power network when a reactive power source (e.g., capacitor bank) is instantaneously connected to the utility power. The reactive power source is adapted to transfer reactive power of a first polarity (e.g., capacitive reactive power) to the utility power network. The system includes a reactive power compensation device configured to transfer a variable quantity of reactive power of a second, opposite polarity to the utility power network, and a controller which, in response to the need to connect the shunt reactive power source to the utility power network, activates the reactive power compensation device and, substantially simultaneously, causes the shunt reactive power source to be connected to the utility power.
    • 本发明的特征在于一种系统和方法,用于使公用事业客户所看到的阶跃电压变化最小化,并且当无功电源(例如,电容器组)为...时,最小化施加在公用电力网络上承载的正常电压的基波形的瞬变 瞬间连接到公用电源。 无功功率源适于将第一极性(例如,电容性无功功率)的无功功率传送到公用电力网络。 该系统包括无功功率补偿装置,其被配置为向公用电力网络传送可变量的具有第二相反极性的无功功率;以及控制器,其响应于将分流无功功率源连接到公用电力的需要 网络,激活无功功率补偿装置,并且基本上同时地使分流无功电源连接到公用电力。
    • 4. 发明授权
    • Reactive power compensation to minimize step voltage changes and transients
    • 无功功率补偿,以最小化步进电压变化和瞬变
    • US07265521B2
    • 2007-09-04
    • US11136333
    • 2005-05-24
    • Arnold P. KehrliJohn A. Diaz De Leon, IIDouglas C. Folts
    • Arnold P. KehrliJohn A. Diaz De Leon, IIDouglas C. Folts
    • G05F1/70
    • H02J3/1828Y02E40/30
    • The invention features a system and approach for minimizing the step voltage change as seen by the utility customer as well minimizing transients imposed on the fundamental waveform of a normal voltage carried on a utility power network when a reactive power source (e.g., capacitor bank) is instantaneously connected to the utility power. The reactive power source is adapted to transfer reactive power of a first polarity (e.g., capacitive reactive power) to the utility power network. The system includes a reactive power compensation device configured to transfer a variable quantity of reactive power of a second, opposite polarity to the utility power network, and a controller which, in response to the need to connect the shunt reactive power source to the utility power network, activates the reactive power compensation device and, substantially simultaneously, causes the shunt reactive power source to be connected to the utility power.
    • 本发明的特征在于一种系统和方法,用于使公用事业客户所看到的阶跃电压变化最小化,并且当无功电源(例如,电容器组)为...时,最小化施加在公用电力网络上承载的正常电压的基波形的瞬变 瞬间连接到公用电源。 无功功率源适于将第一极性(例如,电容性无功功率)的无功功率传送到公用电力网络。 该系统包括无功功率补偿装置,其被配置为向公用电力网络传送可变量的具有第二相反极性的无功功率;以及控制器,其响应于将分流无功功率源连接到公用电力的需要 网络,激活无功功率补偿装置,并且基本上同时地使分流无功电源连接到公用电力。
    • 5. 发明授权
    • Dynamic reactive compensation system and method
    • 动态无功补偿系统及方法
    • US07091703B2
    • 2006-08-15
    • US10794398
    • 2004-03-04
    • Douglas C. FoltsWilliam A. VarekaArnold P. KehrliJohn A. Diaz De Leon, II
    • Douglas C. FoltsWilliam A. VarekaArnold P. KehrliJohn A. Diaz De Leon, II
    • G05F1/70
    • H02J3/1828Y02E40/30
    • The invention features a system for connection to a utility power network. The system includes a reactive power compensation device coupled to the network and configured to transfer reactive power between the utility power network and the reactive power compensation device; a capacitor system configured to transfer capacitive reactive power between the utility power network and the capacitor system; an electro-mechanical switch for connecting and disconnecting the capacitor system to the utility power network; an interface associated with the electro-mechanical switch; a controller configured to provide control signals for controlling the electro-mechanical switch; and a communication channel for coupling the controller to the interface associated with the electro-mechanical switch. The electro-mechanical switch, interface, controller, and communication channel together are configured to connect or disconnect the capacitor system from the utility power network within about three line cycles or less of the nominal voltage frequency when a fault condition is detected on the utility power network.
    • 本发明的特征在于用于连接到公共电力网络的系统。 该系统包括耦合到网络并被配置为在公用电力网络和无功功率补偿装置之间传送无功功率的无功功率补偿装置; 电容器系统,被配置为在所述公用电力网络和所述电容器系统之间传送容性无功功率; 用于将电容器系统连接到公用电力网络的电动机械开关; 与机电开关相关的接口; 控制器,被配置为提供用于控制所述机电开关的控制信号; 以及用于将控制器耦合到与机电开关相关联的接口的通信通道。 机电开关,接口,控制器和通信通道一起被配置为在公用电力网络中检测到故障条件时,在公用电力网络的大约三个线路周期内或更短的时间内将电容器系统与公用电力网络连接或断开 网络。