SCALABLE INTELLIGENT POWER SUPPLY SYSTEM AND METHOD
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Abstract
A scalable intelligent power-supply system and method capable of powering a defined load for a specified period of time is disclosed and claimed. Multiple external AC and DC inputs supply power to the system if available and required. An internal DC input from a back-up energy source is on board. The back-up energy source is scalable by adding additional energy cartridges such as batteries in racks mounted within frames of the system. The AC and DC inputs (including the internal DC input) are controlled, measured, sensed, and converted by circuitry controlled by the microprocessor into multiple AC and/or DC outputs. A microprocessor manages power input to, within, and output from the system. The performance of a Lithium-ion batteries used to power an automobile can be determined on the basis individual battery packs or individual battery cells within the packs. This enables the clusters or groups of Lithium ion batteries to be used in a vehicle such that these dusters operate and function as a “gas” tank or more appropriately as an “energy” tank.
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Citations
23 Claims
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1-20. -20. (canceled)
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21. A battery electric vehicle service station, comprising:
- at least one removable cartridge battery pack, a battery bus, a charge bus, and, a microcontroller, switches between each of said at least one removable cartridge battery pack and each of said battery bus and charge bus, and, said microcontroller selectively connecting or disconnecting each of said at least one removable cartridge battery pack from each of said battery bus and charge bus, by controlling said switches; and
, said microcontroller monitoring a battery information bus.
- at least one removable cartridge battery pack, a battery bus, a charge bus, and, a microcontroller, switches between each of said at least one removable cartridge battery pack and each of said battery bus and charge bus, and, said microcontroller selectively connecting or disconnecting each of said at least one removable cartridge battery pack from each of said battery bus and charge bus, by controlling said switches; and
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22. A battery electric vehicle power supply system, comprising:
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an enclosure housing a rack, said rack housing at least one battery; said enclosure being releasably electrically coupled to an electric vehicle; said enclosure being releasably electrically coupled to an electric service station; said enclosure housing said rack is alternately electrically coupled to said electric vehicle station and said electric vehicle.
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23. A rack for housing a plurality of batteries, comprising:
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at least one electrical connector which couples to an electric vehicle; a mechanical connector which couples said rack to said electric vehicle; and, said electrical connector alternately couples to at an electric vehicle station, and wherein said mechanical connector alternately couples said rack to said electric vehicle station.
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Specification