SMART ENERGY DISTRIBUTION METHODS AND SYSTEMS FOR ELECTRIC VEHICLE CHARGING
First Claim
1. An electric vehicle charging system, comprising:
- one or more first power managers that are located on a first level of a parking structure, each of the one or more first power managers including a short-range wireless transceiver;
one or more second power managers that are located on a second level of the parking structure, each of the one or more second power managers including a short-range wireless transceiver;
a third power manager located on a third level of the parking structure, the third power manager including a short-range wireless transceiver and a long-range cellular transceiver; and
a local electric vehicle charging mesh network configured to interconnect the short-range wireless transceivers of the one or more first power managers, the short-range wireless transceivers of the one or more second power managers, and the short range wireless transceiver of the third power manager,wherein each of the first, second, and third power managers are configured to receive data packets that are transmitted by each of the first, second, and third power managers on the local electric vehicle charging mesh network, and wherein the long-range cellular transceiver of the third power manager is configured to connect the local electric vehicle charging mesh network to a remote server via a cellular connection.
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Accused Products
Abstract
A power management system can smartly allocate the available power at a location to support more electric vehicles than would otherwise be possible. Power managers can intelligently allocate that power based on the real-time needs of vehicles. A smart energy distribution system can estimate each vehicle'"'"'s current charge level and use such information to efficiently provide electric vehicle charging. The system can respond dynamically to vehicle charge levels, current readings, and/or electrical mains readings, allocating more current where it is needed. The charger profiles can include historic charge cycle information, which can be analyzed under a set of heuristics to predict future charging needs. A local electric vehicle charging mesh network can be provided, which transmits data packets among short-range transceivers of multiple power managers. The local electric vehicle charging mesh network can be connected to a remote server via a cellular connection. The power managers and the local electric vehicle charging mesh network can intelligently allocate power to multiple electric vehicles.
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Citations
20 Claims
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1. An electric vehicle charging system, comprising:
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one or more first power managers that are located on a first level of a parking structure, each of the one or more first power managers including a short-range wireless transceiver; one or more second power managers that are located on a second level of the parking structure, each of the one or more second power managers including a short-range wireless transceiver; a third power manager located on a third level of the parking structure, the third power manager including a short-range wireless transceiver and a long-range cellular transceiver; and a local electric vehicle charging mesh network configured to interconnect the short-range wireless transceivers of the one or more first power managers, the short-range wireless transceivers of the one or more second power managers, and the short range wireless transceiver of the third power manager, wherein each of the first, second, and third power managers are configured to receive data packets that are transmitted by each of the first, second, and third power managers on the local electric vehicle charging mesh network, and wherein the long-range cellular transceiver of the third power manager is configured to connect the local electric vehicle charging mesh network to a remote server via a cellular connection. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. An electric vehicle charging system, comprising:
one or more power managers configured to charge a plurality of electric vehicles, wherein each of the one or more power managers includes a control logic section, the control logic section being configured to control, via a control signal, a charging level for each of the plurality of electric vehicles. - View Dependent Claims (15, 16, 17, 18)
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19. A method for intelligently distributing energy for electric vehicle charging, the method comprising:
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transmitting data packets among short-range transceivers of a plurality of power managers that are configured to be part of a local electric vehicle charging mesh network; connecting the local electric vehicle charging mesh network to a remote server via a cellular connection; intelligently and unevenly allocating power, by the plurality of power managers, to a plurality of electric vehicles using the local electric vehicle charging mesh network; and providing, by the remote server, analytical information about the local electric vehicle charging mesh network. - View Dependent Claims (20)
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Specification