Magnetic power transmission utilizing phased transmitter coil arrays and phased receiver coil arrays
First Claim
1. A wireless power transfer system, comprising:
- a flexible substrate adapted to conform to the body of a patient;
a first transmitter resonator disposed on the flexible substrate;
a second transmitter resonator disposed on the flexible substrate, the second transmitter resonator being in electronic communication with the first transmitter resonator;
a receiver resonator; and
a transmit controller configured to drive the first and second transmitter resonators to deliver wireless energy to the receiver resonator, wherein the transmit controller is configured to operate in a test mode to drive the first transmitter resonator individually while a receive controller in the receiver resonator is configured to record a polarity of the magnetic flux received from the first transmitter resonator, and wherein the polarity of the magnetic flux is defined by a direction in which the magnetic flux passes through the receiver resonator.
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Accused Products
Abstract
An improved wireless transmission system for transferring power over a distance. The system includes a transmitter generating a magnetic field and a receiver for inducing a voltage in response to the magnetic field. In some embodiments, the transmitter can include a plurality of transmitter resonators configured to transmit wireless power to the receiver. The transmitter resonators can be disposed on a flexible substrate adapted to conform to a patient. In one embodiment, the polarities of magnetic flux received by the receiver can be measured and communicated to the transmitter, which can adjust polarities of the transmitter resonators to optimize power transfer. Methods of use are also provided.
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Citations
16 Claims
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1. A wireless power transfer system, comprising:
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a flexible substrate adapted to conform to the body of a patient; a first transmitter resonator disposed on the flexible substrate; a second transmitter resonator disposed on the flexible substrate, the second transmitter resonator being in electronic communication with the first transmitter resonator; a receiver resonator; and a transmit controller configured to drive the first and second transmitter resonators to deliver wireless energy to the receiver resonator, wherein the transmit controller is configured to operate in a test mode to drive the first transmitter resonator individually while a receive controller in the receiver resonator is configured to record a polarity of the magnetic flux received from the first transmitter resonator, and wherein the polarity of the magnetic flux is defined by a direction in which the magnetic flux passes through the receiver resonator. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of adjusting wireless power transmission in a TET system, comprising the steps of:
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transmitting power from a first transmitter resonator external to a patient to a receiver resonator implanted within the patient; measuring a first polarity of magnetic flux received by the receiver resonator from the first transmitter resonator, wherein the first polarity of the magnetic flux is defined by a direction in which the magnetic flux passes through the receiver resonator; transmitting power from a second transmitter resonator external to the patient to the receiver resonator implanted within the patient; measuring a second polarity of magnetic flux received by the receiver resonator from the second transmitter resonator, wherein the second polarity of the magnetic flux is defined by a direction in which the magnetic flux passes through the receiver resonator; communicating the measured first and second polarities from the receiver resonator to a controller of the first and second transmitter resonators; and adjusting transmission of power from the first and second transmitter resonators based on the measured first and second polarities. - View Dependent Claims (12, 13, 14, 15, 16)
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Specification