Techniques for facilitating beacon sampling efficiencies in wireless power delivery environments
First Claim
1. A wireless power transmission system, comprising:
- an adaptively-phased antenna array having multiple radio frequency (RF) transceivers;
control circuitry operatively coupled to the multiple transceivers, the control circuitry configured to;
determine if a location of a wireless power receiver client has changed since a previously received beacon signal by comparing samples of a most recently received beacon signal to samples of a previously received beacon signal;
determine a movement status of a wireless power receiver client located within a wireless power delivery environment;
when the location of the wireless power receiver client has not changed since the previously received beacon signal and the movement status is non-static;
determine if the wireless power receiver client has been in a static location for a threshold period of time or number of beacon signals;
when the wireless power receiver client has been in the static location for the threshold period of time or number of beacon signals,set the movement status of the wireless power receiver client to static or semi-static,compute and store an inverse directionality of at least one beacon signal received from the wireless power receiver client at the static location based on samples of the beacon signals; and
direct the one or more of the RF transceivers to transmit a wireless power signal to the wireless power receiver client in a direction of the inverse directionality.
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Accused Products
Abstract
In retrodirective wireless power delivery environments wireless power receivers generate and send beacon signals that are received by multiple antennas of a wireless power transmission system. The beacon signals provide the charger with timing information for wireless power transfers and also indicate directionality of the incoming signal. As discussed herein, the directionality information is employed when transmitting in order to focus energy (e.g., power wave delivery) on individual wireless power receiver clients. Techniques are described herein for reducing the burden of sampling the beacon signals across the multiple antennas and determining the directionality of the incoming wave. In some embodiments, the techniques leverage previously calculated values to simplify the receiver sampling.
14 Citations
20 Claims
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1. A wireless power transmission system, comprising:
an adaptively-phased antenna array having multiple radio frequency (RF) transceivers;
control circuitry operatively coupled to the multiple transceivers, the control circuitry configured to;determine if a location of a wireless power receiver client has changed since a previously received beacon signal by comparing samples of a most recently received beacon signal to samples of a previously received beacon signal; determine a movement status of a wireless power receiver client located within a wireless power delivery environment; when the location of the wireless power receiver client has not changed since the previously received beacon signal and the movement status is non-static; determine if the wireless power receiver client has been in a static location for a threshold period of time or number of beacon signals; when the wireless power receiver client has been in the static location for the threshold period of time or number of beacon signals, set the movement status of the wireless power receiver client to static or semi-static, compute and store an inverse directionality of at least one beacon signal received from the wireless power receiver client at the static location based on samples of the beacon signals; and
direct the one or more of the RF transceivers to transmit a wireless power signal to the wireless power receiver client in a direction of the inverse directionality.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of operating a wireless power transmission system to reduce computational requirements for sampling beacon signals received from wireless power receiver clients in a wireless power delivery environment, the method comprising:
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determining if a location of a wireless power receiver client has changed since a previously received beacon signal by comparing samples of a most recently received beacon signal to samples of a previously received beacon signal; determining a movement status mode of a wireless power receiver client in the wireless power delivery environment; when the location of the wireless power receiver client has not changed since the previously received beacon signal and the movement status is non-static; determining if the wireless power receiver client has been in a static location for a threshold period of time or number of beacon signals; when the wireless power receiver client has been in the static location for the threshold period of time or number of beacon signals; setting the movement status of the wireless power receiver client to static or semi-static, and computing and storing an inverse directionality of at least one beacon signal received from the wireless power receiver client at the static location based on samples of the beacon signals; and transmitting wireless power to the wireless power receiver client in a direction of the inverse directionality. - View Dependent Claims (10, 12, 13, 14, 15, 16)
wherein transmitting the wireless power to the wireless power receiver client comprises transmitting the wireless power in the direction of the previously computed and stored inverse directionality.
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13. The method of claim 9, wherein computing the inverse directionality of the at least one beacon signal received from the wireless power receiver client at the static location comprises:
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computing a directionality of the at least one beacon signal; and inversing the directionality of the at least one beacon signal resulting in the inverse directionality.
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14. The method of claim 9, further comprising:
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when the location of the wireless power receiver client has changed since the previously received beacon signal; set the movement status of the wireless power receiver client to non-static; and compute the inverse directionality of the most recently received beacon signal; wherein transmitting the wireless power to the wireless power receiver client comprises transmitting the wireless power in the direction of the inverse directionality of the most recently received beacon signal.
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15. The method of claim 9, wherein computing the inverse directionality of the most recently received beacon signal further comprises:
computing a directionality of the most recently received beacon signal; and inversing the directionality of the most recently received beacon signal resulting in the inverse directionality of the most recently received beacon signal.
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16. The method of claim 9, wherein computing the inverse directionality of the most recently received beacon signal further comprises:
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sample the most recently received beacon signal; and calculate the directionality of the most recently received beacon signal utilizing trig libraries to perform runtime calculations on the sampled most recently received beacon signal to calculate the directionality.
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11. An apparatus comprising:
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one or more computer readable storage media; and program instructions stored on the one or more computer readable storage media, wherein the program instruction, when executed by a processing system of a wireless power transmission system, direct the processing system to; determine if a location of a wireless power receiver client has changed since a previously received beacon signal by comparing samples of a most recently received beacon signal to samples of a previously received beacon signal; determine a movement status of a wireless power receiver client located within a wireless power delivery environment; when the location of the wireless power receiver client has not changed since the previously received beacon signal and the movement status is non-static; determine if the wireless power receiver client has been in a static location for a threshold period of time or number of beacon signals; when the wireless power receiver client has been in the static location for the threshold period of time or number of beacon signals, set the movement status of the wireless power receiver client to static or semi-static, compute and store an inverse directionality of at least one beacon signal received from the wireless power receiver client at the static location based on samples of the beacon signals; and direct the one or more of the RF transceivers to transmit a wireless power signal to the wireless power receiver client in a direction of the inverse directionality. - View Dependent Claims (17, 18, 19, 20)
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Specification