BUILDING MANAGEMENT AND APPLIANCE CONTROL SYSTEM
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Accused Products
Abstract
The present disclosure is directed to energy storage and supply management system. The system may include one or more of a control unit, which is in communication with the power grid, and an energy storage unit that stores power for use at a later time. The system may be used with traditional utility provided power as well as locally generated solar, wind, and any other types of power generation technology. In some embodiments, the energy storage unit and the control unit are housed in the same chassis. In other embodiments, the energy storage unit and the control unit are separate. In another embodiment, the energy storage unit is integrated into the chassis of an appliance itself.
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Citations
47 Claims
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1-20. -20. (canceled)
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21. A smart energy storage unit for receiving energy from and supplying energy to an electric grid, the smart energy storage unit comprising;
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an input associated with the smart energy storage unit, for receiving AC energy from the electric grid; a first inverter electrically coupled to the input for receiving a first amount of AC energy from the grid and converting the first amount of AC energy to a first amount of DC energy suitable for storage; a plurality of energy storage cells electrically coupled to the first inverter for receiving the first amount of DC energy and converting the first amount of DC energy to chemical energy for storage so as to charge the smart energy storage unit, and for converting a second amount of chemical energy to a second amount of DC energy for release to the grid so as to discharge the smart energy storage unit; a second inverter electrically coupled to the plurality of energy cells for receiving the second amount of DC energy from the plurality of energy storage cells and for converting the second amount of DC energy in to a second amount of AC energy for supply to the grid; an output for supplying AC energy to the electric grid; a battery management system coupled to the plurality of storage cells for directing the storing of energy in and the releasing of energy from the plurality of energy storage cells in accordance with energy management system instructions; a first control unit coupled to the battery management system for controlling the battery management system in accordance with a first set of received instructions; a second control unit coupled to the inverter for controlling the inverter in accordance with a second set of received instructions; a sensor capable of being coupled to the electric grid for sensing a condition of the electric grid; a communications module coupled to the sensor, for communicating the sensed condition to a master controller; and a master controller coupled to the communications module and the first and second control units for generating and communicating first and second instructions to the first and second control units so as to control the receiving of energy from and the supplying of energy to the electric grid and thereby controlling the charging and discharging of the smart energy storage unit in accordance with the sensed electrical grid condition. - View Dependent Claims (42, 43)
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30. A system for receiving energy from and supplying energy to an electric grid, the system comprising;
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a smart asset photovoltaic system coupled to the electric grid, for providing primary energy to the electric grid; a first switch capable of being coupled to the photovoltaic system and the electric grid for reversibly coupling the smart asset photovoltaic system to the electric grid; a smart asset monitor capable of being coupled to the electric grid for monitoring the primary energy provided to the electric grid from the photovoltaic system, for determining a load condition of the electric grid, and to produce monitored data and communicating the monitored data to a smart asset battery; a second switch for reversibly coupling a smart asset battery to the electric grid; a smart asset battery communicably coupled to the smart asset monitor and operably capable of being coupled to the electric grid for receiving primary energy from and supplying auxiliary energy to the electric grid so as to charge and discharge the smart asset battery in response to the monitored data received from the smart asset sensor, the smart asset battery comprising; an input and an output associated with the smart asset battery and operably coupled to the electric grid, the input and output for receiving primary energy from and supplying auxiliary energy to the electric grid; a plurality of energy storage cells operably coupled to the input and output, for storing and supplying the energy from and to the electric grid; a grid flexible converter (GFC) coupled to the input and output, a battery management system, and the plurality of energy storage cells for performing a first converting operation for converting AC energy to DC energy prior to storage, and for performing a second converting operation for converting DC energy to AC energy prior to supply to the electric grid, the grid flexible converter including a control unit for controlling the converting operations of the grid flexible converter and the battery management system; a battery management system coupled to the grid flexible converter and the plurality of storage cells, for directing the storing of energy in and the releasing of energy from the plurality of energy storage cells in accordance with energy management system instructions; a communications module communicably coupled to both the smart asset monitor and a master controller; a master controller coupled to the grid flexible converter and the communications module, for instructing the control unit of the grid flexible converter to receive energy from and supply energy to the electric grid thereby charging or discharging the smart asset battery in response to communications received from the smart asset monitor.
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39. A system for receiving energy from and supplying energy to an electric grid, the system comprising;
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a smart asset monitor capable of being coupled to the electric grid, for monitoring and/or sensing an electric grid condition; a smart asset battery communicably coupled to the smart asset monitor and further capable of being coupled to the electric grid for receiving energy from and supplying energy to the electric grid in response to the sensed condition, the smart asset battery comprising; an input and an output associated with the smart asset battery for receiving energy from and supplying energy to the electric grid; a plurality of energy storage cells operably coupled to the input and output for storing and supplying the energy from and to the electric grid; a grid flexible converter (GFC) coupled to the input and output and the plurality of energy storage cells for performing a first converting operation for converting AC energy to DC energy prior to storage, and for performing a second converting operation for converting DC energy to AC energy prior to supplying energy to the electric grid, the grid flexible converter including; a control unit, for controlling the converting operations of the grid flexible converter; a communications module communicably coupled to both the smart asset monitor and a master controller, the communications module for receiving sensed conditions from the smart asset monitor and communicating the same to the master controller; a master controller coupled to the grid flexible converter and the communications module for controlling the control unit of the grid flexible converter in response to communications received from the smart asset monitor conveyed to the master controller by the communications module, the master controller for controlling the receiving and supplying of energy to the electric grid.
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47. A system for managing load balance by storing energy from and supplying energy to an electric grid, the system comprising;
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a smart asset monitor coupled to the electric grid, for monitoring and/or sensing an electric grid condition; an energy cloud processing server communicably coupled to the smart asset monitor, the energy cloud processing server for receiving the sensed electric grid condition, and for distributing microloads to one or more smart asset batteries in response to the sensed electric grid condition, at least one smart asset battery communicably coupled to the energy cloud processing server, and further capable of being coupled to the electric grid for receiving energy from and supplying energy to the electric grid in response to a control command from the energy cloud processing server, the smart asset battery comprising; an input and an output associated with the smart asset battery for receiving energy from and supplying energy to the electric grid; a plurality of energy storage cells operably coupled to the input and output for storing and supplying the energy from and to the electric grid; a grid flexible converter (GFC) coupled to the input and output and the plurality of energy storage cells for performing a first converting operation for converting AC energy to DC energy prior to storage, and for performing a second converting operation for converting DC energy to AC energy prior to supplying energy to the electric grid, the grid flexible converter including; a control unit, for controlling the converting operations of the grid flexible converter; a communications module communicably coupled to both the smart asset monitor and a master controller, the communications module for receiving sensed conditions from the smart asset monitor and communicating the same to the master controller; a master controller coupled to the grid flexible converter and the communications module for controlling the control unit of the grid flexible converter in response to communications received from the smart asset monitor conveyed to the master controller by the communications module, the master controller for controlling the receiving and supplying of energy to the electric grid.
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Specification