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    • 112. 发明申请
    • ALTERNATIVE ENERGY BUS BAR BY PASS BREAKER, METHODS OF USE AND INSTALLATION
    • 通过断路器替代能量母线,使用和安装方法
    • US20160056617A1
    • 2016-02-25
    • US14464578
    • 2014-08-20
    • Paul Cruz
    • Paul Cruz
    • H02B3/00H02J3/38
    • H02J3/382H01H71/02H01H71/08H01H73/06H02B3/00H02J3/006Y02B10/30Y02E10/763Y04S10/525
    • The present invention is directed, in part, to electrical components and methods of use associated with such components. In particular, the invention relates to an electrical device and improved method of back feeding energy generated from alternative energy devices such as solar panels, wind turbines, fuel cells, electrical generators and other alternative energy sources, to the utility without the necessity of installing a sub panel or replacing an existing panel, resulting in significant cost savings for the user and increased electrical energy available to the power grid. The invention further discloses installation of a back feed circuit breaker into an existing main panel and main circuit breaker thus, eliminating the need of a home owner to completely reinstall a new electrical system in order to install alternative energy sources such as for example, solar panels and the like.
    • 本发明部分地涉及与这些部件相关联的电气部件和使用方法。 特别地,本发明涉及一种电气装置和从诸如太阳能电池板,风力涡轮机,燃料电池,发电机和其他替代能量源的替代能量装置产生的能量的后馈式的改进方法,而不需要安装 子板或替换现有面板,从而为用户节省了显着的成本,并增加了电网可用的电能。 本发明还公开了将背进式断路器安装到现有的主面板和主断路器中,从而消除了家庭所有者完全重新安装新的电气系统的需要,以便安装替代的能源,例如太阳能电池板 等等。
    • 113. 发明授权
    • Methods, systems, computer program products, and devices for renewable energy site power limit control
    • 方法,系统,计算机程序产品和可再生能源现场电力限制控制装置
    • US09270164B2
    • 2016-02-23
    • US13921788
    • 2013-06-19
    • TMEIC Corporation
    • Paul S. BixelBenjamin D. Rudolph
    • H02M1/42H02J3/38H02M7/493
    • H02M1/42H02J3/382H02M7/493Y02B70/126Y02E10/763
    • The present invention provides methods, systems, computer program products, and devices for renewable energy site power limit control that address conditions of plant saturation and loop delay. In an exemplary embodiment, power limit control of the present invention is broken into two levels of control: a site-wide real power limit control that produces a single site-wide command, SitePlimCom, for all inverters, and inverter-level power limit control that outputs a command, Inv[x].PlimCom[k], for individual inverters. In some embodiments, the invention has one or more of the following features: an integrator with nonlinear gains, limit based anti-windup, a power limit control term based on the sum of both integrator and feed-forward terms, and an inverter-level controller designed to meet slew rate and site power overshoot constraints. The invention can be used at any renewable energy site employing inverters wherein improved dynamic control performance is needed, including solar, wind, and tidal energy sites.
    • 本发明提供了用于可再生能源位置功率限制控制的方法,系统,计算机程序产品和设备,其针对工厂饱和和环路延迟的条件。 在示例性实施例中,本发明的功率限制控制被分为两个级别的控制:针对所有逆变器产生单个站点范围命令,SitePlimCom的现场范围有功功率限制控制和逆变器级功率限制控制 它为各个逆变器输出一个命令Inv [x] .PlimCom [k]。 在一些实施例中,本发明具有以下特征中的一个或多个:具有非线性增益的积分器,基于限制的抗融合,基于积分器和前馈项之和的功率限制控制项,以及逆变器级 控制器设计用于满足压摆率和现场功率过冲约束。 本发明可以用于需要改进的动态控制性能的逆变器的任何可再生能源地点,包括太阳能,风能和潮汐能场所。
    • 117. 发明授权
    • Electrical quantity adjusting apparatus, electrical quantity adjusting method, electrical quantity adjusting program and power supply system
    • 电量调节装置,电量调整方式,电量调节程序和电源系统
    • US09257849B2
    • 2016-02-09
    • US13552023
    • 2012-07-18
    • Yutaka IinoKyosuke KatayamaYoshiaki Hasegawa
    • Yutaka IinoKyosuke KatayamaYoshiaki Hasegawa
    • H02J3/38
    • H02J3/383H02J3/386Y02E10/563Y02E10/763
    • According to one embodiment, an electrical quantity adjusting apparatus connected to an electrical facility includes a memory unit that stores a target level which is a target electrical quantity, a presenting level deciding unit that decides a presenting level to an exterior, the presenting level being an electrical quantity relating to the electrical facility and corresponding to at least a part at the target level, a presenting level output unit that outputs the presenting level decided by the presenting level deciding unit to the exterior via a communication network, a presenting level receiving unit that receives a presenting level from the exterior via the communication network, and an adjusting unit that adjusts the electrical quantity relating to the electrical facility based on the target level, the presenting level decided by the presenting level deciding unit, and the presenting level received by the presenting level receiving unit.
    • 根据一个实施例,连接到电气设施的电量调节装置包括存储作为目标电量的目标电平的存储单元,将外部电平决定呈现电平的呈现电平决定单元,呈现电平为 与电气设施相关的电量对应于目标电平的至少一部分;呈现电平输出单元,其经由通信网络将呈现电平决定单元决定的呈现电平输出到外部,呈现电平接收单元, 经由通信网络从外部接收呈现级别,以及调整单元,其基于目标级别调整与电气设施相关的电量,由呈现级别决定单元确定的呈现级别和由所述呈现级别接收的呈现级别 呈现级别接收单元。
    • 118. 发明授权
    • Smart microgrid
    • 智能微电网
    • US09240687B2
    • 2016-01-19
    • US12897664
    • 2010-10-04
    • Michael A. CarraleroJimmy M. Quiambao
    • Michael A. CarraleroJimmy M. Quiambao
    • H02J1/00H02J3/14H02J1/10H02M1/10H02J3/38H02J13/00
    • H02J3/383H02J3/06H02J3/386H02J13/0006Y02E10/563Y02E10/763Y02E40/72Y04S10/123Y10T307/352
    • Described herein are embodiments of microgrid systems which may be used as stand-alone systems or may be connected to a larger, integrated power supply system. In some embodiments, a system comprises a smart microgrid system comprising at least one electrical power bus connectable to at least one input power source by one or more switchable connections, a communication network coupled to the smart microgrid system, and a controller coupled to the communication network. In some embodiments the controller comprises logic to monitor power outputs from the at least one input power source, to monitor one or more power loads coupled to the at least one electrical power bus, and to selectively connect one or more of the input power sources to the at least one electrical power bus.
    • 这里描述的是可以用作独立系统或可以连接到较大的集成电源系统的微电网系统的实施例。 在一些实施例中,系统包括智能微电网系统,其包括通过一个或多个可切换连接可连接到至少一个输入电源的至少一个电力总线,耦合到智能微电网系统的通信网络,以及耦合到通信的控制器 网络。 在一些实施例中,控制器包括用于监测来自至少一个输入电源的功率输出的逻辑,以监测耦合到至少一个电力总线的一个或多个功率负载,以及选择性地将一个或多个输入电源连接到 所述至少一个电力总线。