MULTI FREQUENCY POWER DRIVER FOR A WIRELESS POWER TRANSFER SYSTEM
First Claim
1. A wireless power transfer system comprising:
- a plurality of receivers operating at a different resonance frequency from each other, wherein each of the plurality of receivers includes at least a load;
a driver that generates a power signal that encompassed a plurality of driving signals having different frequencies that substantially match the different resonance frequencies of the plurality of receivers; and
a pair of transmitter electrodes connected to the driver and wirelessly coupled to each of the plurality of receivers, wherein the power signal generated by the driver is wirelessly transferred from the pair of transmitter electrodes to each of the plurality of receivers to power its respective load, wherein a load of a receiver of each of the plurality of receivers is powered when the frequency of one of plurality of driving signals substantially matches a resonance frequency of the receiver;
wherein the generated power signal is configured to independently control at least one of;
a duration that each of the loads in the plurality of receivers is powered on, and a power level at each of the loads, and the driver further includes;
a switching element configured to output the power signal from an input signal based on at least one modulation schema; and
a controller configured to control the switching element by setting the at least one modulation scheme.
0 Assignments
0 Petitions
Accused Products
Abstract
A wireless power transfer system comprises a plurality of receivers (310, 320, 330) operating at a different resonance frequency from each other, wherein each of the plurality of receivers includes at least a load (311, 321, 331); a driver (300) that generates a power signal that encompasses a plurality of driving signals (411, 412, 413) having different frequencies that substantially match the different resonance frequencies of the plurality of receivers; and a pair of transmitter electrodes (304, 305) connected to the driver and wirelessly coupled to each of the plurality of receivers, wherein the power signal generated by the driver is wirelessly transferred from the pair of transmitter electrodes to each of the plurality of receivers to power its respective load, wherein a load of a receiver of each of the plurality of receivers is powered when the frequency of one of plurality of driving signals substantially matches a resonance frequency of the receiver.
13 Citations
15 Claims
-
1. A wireless power transfer system comprising:
-
a plurality of receivers operating at a different resonance frequency from each other, wherein each of the plurality of receivers includes at least a load; a driver that generates a power signal that encompassed a plurality of driving signals having different frequencies that substantially match the different resonance frequencies of the plurality of receivers; and a pair of transmitter electrodes connected to the driver and wirelessly coupled to each of the plurality of receivers, wherein the power signal generated by the driver is wirelessly transferred from the pair of transmitter electrodes to each of the plurality of receivers to power its respective load, wherein a load of a receiver of each of the plurality of receivers is powered when the frequency of one of plurality of driving signals substantially matches a resonance frequency of the receiver; wherein the generated power signal is configured to independently control at least one of; a duration that each of the loads in the plurality of receivers is powered on, and a power level at each of the loads, and the driver further includes; a switching element configured to output the power signal from an input signal based on at least one modulation schema; and a controller configured to control the switching element by setting the at least one modulation scheme. - View Dependent Claims (2, 3, 6, 7, 8, 9, 10, 11, 14)
-
-
4. (canceled)
-
5. (canceled)
-
12. A driver configured to independently drive a plurality of receivers operable in wireless power transfer system, wherein the plurality of receivers operate at a different resonance frequency from each other, the driver comprises:
-
a switching element configured to output a power signal from an input signal based on at least one modulation schema, wherein the power signal encompasses a plurality of driving signals having different frequencies that substantially match the different resonance frequencies of the plurality of receivers; and a controller configured to control the switching element by setting the at least one modulation scheme, the controller is further configured to determine the resonance frequency of each of the plurality of receivers. - View Dependent Claims (13)
-
-
15. A method for generating a power signal to independently drive a plurality of receivers operable in a wireless power transfer system, wherein the plurality of receivers operate at a different resonance frequency from each other, comprising:
-
scanning a frequency band to determine the different resonance frequencies of the plurality of receivers; generating a modulation pulse pattern to modulate an input signal; modulating the input signal using the modulation pattern to generate a power signal, wherein the power signal encompasses a plurality of driving signals having different frequencies that substantially match the different resonance frequencies of the plurality of receivers.
-
Specification