Passively powering a wireless communications device
First Claim
Patent Images
1. A wireless device comprising:
- a radio-frequency (RF) interface configured to receive an RF signal and configured to provide an output data signal derived from the RF signal;
logic circuitry configured to receive the output data signal and provide an output analog signal based on the output data signal;
power circuitry coupled to the RF interface and configured to provide DC operating power derived from the RF signal to the RF interface and the logic circuitry;
a first impedance matching transformer comprising a plurality of switches configurable to adjust a turns ratio of the first transformer and having an input coupled to the logic circuitry and having an output, wherein the first transformer is configured to receive the output analog signal from the logic circuitry and convert the output analog signal to a converted output analog signal having a lower voltage and a higher current than the output analog signal; and
a first transducer coupled to the output of the first impedance matching transformer and configured to receive the converted output analog signal from the first transformer output and produce an output audio signal based on the output analog signal.
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Abstract
A wireless device includes an RF interface, logic circuitry, power circuitry, an impedance matching transformer, and a transducer. The RF interface is configured to receive an RF signal and provide an output data signal derived from the RF signal. The logic circuitry is configured to receive the output data signal and provide an output analog signal. The power circuitry is coupled to the RF interface and configured to provide DC operating power derived from the RF signal to the RF interface and the logic circuitry. The impedance matching transformer has an input coupled to the logic circuitry and an output. The transducer is coupled to the output of the impedance matching transformer and is configured to produce an audio signal based on the output analog signal.
43 Citations
40 Claims
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1. A wireless device comprising:
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a radio-frequency (RF) interface configured to receive an RF signal and configured to provide an output data signal derived from the RF signal; logic circuitry configured to receive the output data signal and provide an output analog signal based on the output data signal; power circuitry coupled to the RF interface and configured to provide DC operating power derived from the RF signal to the RF interface and the logic circuitry; a first impedance matching transformer comprising a plurality of switches configurable to adjust a turns ratio of the first transformer and having an input coupled to the logic circuitry and having an output, wherein the first transformer is configured to receive the output analog signal from the logic circuitry and convert the output analog signal to a converted output analog signal having a lower voltage and a higher current than the output analog signal; and a first transducer coupled to the output of the first impedance matching transformer and configured to receive the converted output analog signal from the first transformer output and produce an output audio signal based on the output analog signal.
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2. The wireless device of claim 1, further comprising a second transducer configured to receive an input audio signal and provide to the logic circuitry an input analog signal based on the input audio signal, wherein:
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the logic circuitry is further configured to receive the input analog signal and provide to the RF interface an input data signal based on the input analog signal; and the RF interface is further configured to receive the input data signal and modulate the RF signal based on the input data signal.
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3. The wireless device of claim 2, further comprising a second impedance matching transformer having an input coupled to the second transducer and an output coupled to the logic circuitry.
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4. The wireless device of claim 3, wherein the logic circuitry includes an analog-to-digital converter having an input coupled to the output of the second impedance matching transformer.
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5. The wireless device of claim 2, wherein:
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the wireless device is configured as a wearable headset; the first transducer comprises an earphone, headphone, or speaker of the wearable headset; and the second transducer comprises a microphone of the wearable headset.
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6. The wireless device of claim 1, wherein the logic circuitry includes a digital-to-analog converter having an output coupled to the input of the first impedance matching transformer.
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7. The wireless device of claim 1, further comprising an image sensor configured to capture an image and provide data regarding the image to the logic circuitry.
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8. The wireless device of claim 1, wherein the wireless device is configured to:
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receive text data; and provide data related to the text data to a base station.
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9. The wireless device of claim 1, wherein:
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the wireless device has a unique address; and the wireless device is configured to send data to a base station using backscatter communication.
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10. The wireless device of claim 9, wherein the base station is configured to send data to the wireless device using the RF signal.
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11. A wireless communication system comprising:
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a wireless device comprising; a radio-frequency (RF) interface configured to receive an RF signal and configured to provide an output data signal derived from the RF signal; logic circuitry configured to receive the output data signal and provide an output analog signal based on the output data signal; power circuitry coupled to the RF interface and configured to provide DC operating power derived from the RF signal to the RF interface and the logic circuitry; a first impedance matching transformer comprising a plurality of switches configurable to adjust a turns ratio of the first transformer and having an input coupled to the logic circuitry and having an output, wherein the first transformer is configured to receive the output analog signal from the logic circuitry and convert the output analog signal to a converted output analog signal having a lower voltage and a higher current than the output analog signal; and a first transducer coupled to the output of the first impedance matching transformer and configured to receive the converted output analog signal from the first transformer output and produce an output audio signal based on the output analog signal; and a base station having at least one network connection and an RF transceiver, wherein; the RF transceiver is configured to generate the RF signal and receive backscatter communication from the wireless device; and the wireless device is configured to communicate data to the base station using backscatter communication.
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12. The wireless communication system of claim 11, wherein the wireless device further includes a second transducer configured to receive an input audio signal and provide to the logic circuitry an input analog signal based on the input audio signal, wherein:
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the logic circuitry is further configured to receive the input analog signal and provide to the RF interface an input data signal based on the input analog signal; and the RF interface is further configured to receive the input data signal and modulate the RF signal based on the input data signal.
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13. The wireless communication system of claim 12, wherein the wireless device further includes a second impedance matching transformer having an input coupled to the second transducer and an output coupled to the logic circuitry.
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14. The wireless communication system of claim 13, wherein the logic circuitry includes an analog-to-digital converter having an input coupled to the output of the second impedance matching transformer.
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15. The wireless communication system of claim 12, wherein:
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the wireless device is configured as a wearable headset; the first transducer comprises an earphone, headphone, or speaker of the wearable headset; and the second transducer comprises a microphone of the wearable headset.
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16. The wireless communication system of claim 11, wherein the logic circuitry includes a digital-to-analog converter having an output coupled to the input of the first impedance matching transformer.
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17. The wireless communication system of claim 11, wherein the wireless device further includes an image sensor configured to capture an image and provide data regarding the image to the logic circuitry.
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18. The wireless communication system of claim 11, further comprising a plurality of wireless devices each having a unique address, wherein:
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each wireless device is configured to provide DC operating power derived from the RF signal; and the base station is configured to receive backscatter communication from each of the plurality of wireless devices.
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19. The wireless communication system of claim 18, wherein the base station is configured to send data to each of the wireless devices using the RF signal.
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20. The wireless communication system of claim 11, wherein the wireless device is further configured to:
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receive text data; and provide data related to the text data to the base station.
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21. A method comprising:
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by a radio-frequency (RF) interface of a wireless device, receiving an RF signal and providing an output data signal derived from the RF signal; by logic circuitry of the wireless device, receiving the output data signal and providing an output analog signal based on the output data signal; by power circuitry of the wireless device, providing DC operating power derived from the RF signal to the RF interface and the logic circuitry; by a first impedance matching transformer of the wireless device, the first transformer comprising a plurality of switches configurable to adjust a turns ratio of the first transformer, receiving the output analog signal from the logic circuitry and converting the output analog signal to a converted output analog signal having a lower voltage and a higher current than the output analog signal; and by a first transducer of the wireless device, receiving the converted output analog signal from the first transformer and producing an output audio signal based on the output analog signal.
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22. The method of claim 21, further comprising:
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by a second transducer of the wireless device, receiving an input audio signal and providing to the logic circuitry an input analog signal based on the input audio signal; by the logic circuitry of the wireless device, receiving the input analog signal and providing to the RF interface an input data signal based on the input analog signal; and by the RF interface of the wireless device, receiving the input data signal and modulating the RF signal based on the input data signal.
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23. The method of claim 22, wherein the wireless device comprises a second impedance matching transformer having an input coupled to an output of the second transducer and an output coupled to the logic circuitry.
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24. The method of claim 23, wherein the logic circuitry comprises an analog-to-digital converter having an input coupled to the output of the second impedance matching transformer.
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25. The method of claim 22, wherein:
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the wireless device is configured as a wearable headset; the first transducer comprises an earphone, headphone, or speaker of the wearable headset; and the second transducer comprises a microphone of the wearable headset.
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26. The method of claim 21, wherein the logic circuitry comprises a digital-to-analog converter having an output coupled to the first impedance matching transformer.
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27. The method of claim 21, further comprising, by an image sensor of the wireless device, capturing an image and providing data regarding the image to the logic circuitry.
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28. The method of claim 21, further comprising:
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by the wireless device, receiving text data; and by the wireless device, providing data related to the text data to a base station.
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29. The method of claim 21, wherein the wireless device has a unique address, and further comprising:
by the wireless device, sending data to a base station using backscatter communication.
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30. The method of claim 29, wherein the base station is configured to send data to the wireless device using the RF signal.
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31. A method comprising:
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by a base station, generating a radio-frequency (RF) signal; by an RF interface of a wireless device, receiving the RF signal and providing an output data signal derived from the RF signal; by logic circuitry of the wireless device, receiving the output data signal and providing an output analog signal based on the output data signal; by power circuitry of the wireless device, providing DC operating power derived from the RF signal to the RF interface and the logic circuitry; by a first impedance matching transformer of the wireless device, the first transformer comprising a plurality of switches configurable to adjust a turns ratio of the first transformer, receiving the output analog signal from the logic circuitry and converting the output analog signal to a converted output analog signal having a lower voltage and a higher current than the output analog signal; by a first transducer of the wireless device, receiving the converted output analog signal from the first transformer and producing an output audio signal based on the output analog signal; by the wireless device, communicating data to the base station using backscatter communication; and by the base station, receiving the backscatter communication from the wireless device.
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32. The method of claim 31, further comprising:
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by a second transducer of the wireless device, receiving an input audio signal and providing to the logic circuitry an input analog signal based on the input audio signal; by the logic circuitry of the wireless device, receiving the input analog signal and providing to the RF interface an input data signal based on the input analog signal; and by the RF interface of the wireless device, receiving the input data signal and modulating the RF signal based on the input data signal.
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33. The method of claim 32, wherein the wireless device comprises a second impedance matching transformer having an input coupled to an output of the second transducer and an output coupled to the logic circuitry.
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34. The method of claim 33, wherein the logic circuitry comprises an analog-to-digital converter having an input coupled to the output of the second impedance matching transformer.
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35. The method of claim 32, wherein
the wireless device is configured as a wearable headset; -
the first transducer comprises an earphone, headphone, or speaker of the wearable headset; and the second transducer comprises a microphone of the wearable headset.
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36. The method of claim 31, wherein the logic circuitry comprises a digital-to-analog converter having an output coupled to the first impedance matching transformer.
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37. The method of claim 31, further comprising, by an image sensor of the wireless device, capturing an image and providing data regarding the image to the logic circuitry.
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38. The method of claim 31, further comprising:
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by the wireless device, receiving text data; and by the wireless device, providing data related to the text data to the base station.
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39. The method of claim 31, further comprising:
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by the base station, selecting one of a plurality of wireless devices, each wireless device having a unique address and configured to provide DC operating power derived from the RF signal; and by the base station, receiving backscatter communication from the one of the plurality of wireless devices.
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40. The method of claim 39, further comprising, by the base station, sending data from the base station to each of the wireless devices using the RF signal.
Specification
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Current AssigneeMeta Platforms, Inc. (f/k/a Facebook, Inc.)
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Original AssigneeMeta Platforms, Inc. (f/k/a Facebook, Inc.)
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InventorsMaguire, Yael
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Primary Examiner(s)HUANG, WEN WU
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Application NumberUS13/118,693Publication NumberTime in Patent Office1,316 DaysField of Search455/41.1, 455/41.2, 455/41.3US Class Current455/41.1CPC Class CodesH02J 50/10 using inductive couplingH02J 50/20 using microwaves or radio f...H02J 50/80 involving the exchange of d...H04M 1/6066 including a wireless connec...
