Wireless charging and powering of electronic devices in a vehicle
First Claim
1. A method for wireless power transmission in a vehicle, comprising:
- pocket-forming for generating pockets of energy from a transmitter connected to a power source in the vehicle;
coupling a receiver to an electronic device located within the vehicle for receiving the pockets of energy; and
utilizing the pockets of energy for powering and charging the electronic device,wherein the receiver and transmitter each include a circuitry for a radio frequency integrated circuit, an antenna array, a microcontroller and a communication component circuitry for communications between the receiver and the transmitter to control data information and the powering and charging of the electronic device.
4 Assignments
0 Petitions
Accused Products
Abstract
Configurations and methods of wireless power transmission for charging or powering one or more electronic devices inside a vehicle are disclosed. A transmitter capable of single or multiple pocket-forming may be connected to a car lighter, where this transmitter may include a circuitry module and an antenna array integrated within the transmitter, or operatively connected through a cable. This cable may allow the positioning of the antenna array in different locations inside the vehicle suitable for directing RF waves or pockets of energy towards one or more electronic devices. Transmitter'"'"'s configuration can be accessed by one or more electronic devices through Bluetooth communication in order to set up charging or powering priorities.
317 Citations
26 Claims
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1. A method for wireless power transmission in a vehicle, comprising:
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pocket-forming for generating pockets of energy from a transmitter connected to a power source in the vehicle; coupling a receiver to an electronic device located within the vehicle for receiving the pockets of energy; and utilizing the pockets of energy for powering and charging the electronic device, wherein the receiver and transmitter each include a circuitry for a radio frequency integrated circuit, an antenna array, a microcontroller and a communication component circuitry for communications between the receiver and the transmitter to control data information and the powering and charging of the electronic device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for wireless power transmission in a vehicle, comprising:
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pocket-forming for generating pockets of energy from a transmitter connected to a power source in the vehicle; coupling a receiver to an electronic device located within the vehicle for receiving the pockets of energy; utilizing the pockets of energy for powering and charging the electronic device; communicating between the receiver and transmitter through short RI′
waves or pilot signals on conventional wireless communication protocols including Bluetooth, Wi-Fi or Zigbee with the battery level information for each electronic device;scanning for Bluetooth electronic devices available for wireless charging; and prioritizing the charging or powering of the available electronic devices whereby the transmitter directs pocket-forming towards predetermined electronic devices in priority order, wherein the power source is a vehicle lighter socket or a direct connection to a power wire within the vehicle, and wherein the electronic device is a laptop computer, a smartphone, a portable gaming device, a tablet, a cell phone, an iPod or a portable device with a chargeable battery.
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12. A method of wireless power transmission to an electronic device within a vehicle comprising:
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supplying pockets of energy to a receiver including an antenna element, a digital signal processor (DSP), a rectifier, a power converter and a communications device connected to the electronic device with a battery; pocket-forming in a transmitter including antenna elements, a RF integrated chip controlled by a DSP for pocket-forming to develop pockets of energy for charging and powering a battery in the electronic device and a communication device controlled by the DSP; powering the transmitter from a power source within the vehicle; communicating the power level of the battery from the receiver to the transmitter through short RF signals between the receiver and transmitter communication devices over conventional wireless communication protocols; decoding short RF signals from the receiver communication device to identify a gain and phase of the receiver to determine the location of the receiver in each electronic device within the vehicle; controlling the charging and powering of each electronic device by the decoded short RF signals; and charging the battery of each electronic device when in the proximity to the transmitter to provide an inexhaustible source of operating power for each electronic device. - View Dependent Claims (13)
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14. A method of wireless power transmission to an electronic device within a vehicle, comprising:
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supplying pockets of energy to a receiver including an antenna element, a digital signal processor (DSP), a rectifier, a power converter and a communications device connected to the electronic device with a battery; pocket-forming in a transmitter including antenna elements, a RF integrated chip controlled by a DSP for pocket-forming to develop pockets of energy for charging and powering a battery in the electronic device and a communication device controlled by the DSP; powering the transmitter from a power source within the vehicle; communicating the power level of the battery from the receiver to the transmitter through short RF signals between the receiver and transmitter communication devices over conventional wireless communication protocols; and reflecting the pockets of energy to the receiver of an electronic device located in the backseat of the vehicle for charging and powering the electronic device.
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15. A method of wireless power transmission to an electronic device within a vehicle, comprising:
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supplying pockets of energy to a receiver including an antenna element, a digital signal processor (DSP), a rectifier, a power converter and a communications device connected to the electronic device with a battery; pocket-forming in a transmitter including antenna elements, a RF integrated chip controlled by a DSP for pocket-forming to develop pockets of energy for charging and powering a battery in the electronic device and a communication device controlled by the DSP; powering the transmitter from a power source within the vehicle; communicating the power level of the battery from the receiver to the transmitter through short RF signals between the receiver and transmitter communication devices over conventional wireless communication protocols; wherein the transmitter is configured within a cylindrical shape of a vehicle charger having one end pluggable into a vehicle lighter socket and the other end forms the antenna elements. - View Dependent Claims (16, 17, 18)
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19. A method of wireless power transmission to an electronic device within a vehicle, comprising:
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searching for a wireless charging request for electronic devices within the vehicle; scanning for a Bluetooth signal from a receiver for identifying any suitable electronic device requiring the charging of a battery providing power to the electronic device; logging into a charging application; setting up charging priorities between identified electronic devices; pocket-forming from a transmitter communicating with the identified electronic device for supplying pockets of energy to the receiver of the electronic device requiring charging; and ending wireless power transmission to the electronic devices when fully charged, wherein the cloud services are either public or private and require user credentials or authorization to gain access to accumulated data of the electronic device various locations over a period of time. - View Dependent Claims (20)
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21. A wireless power transmission to a portable electronic device within a vehicle, comprising:
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a receiver connected to the portable electronic device with an antenna for receiving pockets of energy formed from constructive interference patterns of RF waves to charge a battery for powering the electronic device; a transmitter including a RF chip connected to antenna elements for generating pocket-forming RF waves having a connection to a power source within the vehicle. - View Dependent Claims (22, 23, 24, 25, 26)
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Specification