Multi-loop implant charger
First Claim
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1. A method for wireless transfer of power from a wireless charger to an implantable component having an implantable coil, the method comprising:
- delivering a first alternating current signal to a first coil antenna of the wireless charger so as to produce a first magnetic field;
delivering a second alternating current signal to a second coil antenna of the wireless charger so as to produce a second magnetic field, wherein the second alternating current signal causes at least one of a phase or an amplitude of the second magnetic field to vary with respect to a phase or an amplitude of the first magnetic field;
receiving, at the implantable coil, a combined magnetic field comprised of the first and second magnetic fields, wherein the combined magnetic field generates an alternating current signal at the implantable coil;
continuously varying at least one of a phase or an amplitude of the second alternating current signal relative to a phase or an amplitude of the first alternating current signal to cause rotation of the combined magnetic field in a first direction; and
measuring a voltage at the implantable coil induced by the combined magnetic field; and
determining, at the wireless charger, when a level of the voltage measured at the implantable coil falls below a selected voltage level; and
in response to determining that the voltage at the implantable coil falls below the selected voltage level, adjusting a variation between at least one of the phase or the amplitude of the second magnetic field with respect to the phase or amplitude of the first magnetic field to cause the combined magnetic field to rotate in a second direction.
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Abstract
Techniques for charging a battery within an implantable component (implant) of an implantable medical device system. A multi-loop external charging device includes a plurality of coil/loop antennas that are each configured to emit a magnetic field that is received by an implantable coil of the implantable component. At least one characteristic (e.g., phases, amplitudes, etc.) of the emitted magnetic fields are varied relative to one another over time.
148 Citations
19 Claims
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1. A method for wireless transfer of power from a wireless charger to an implantable component having an implantable coil, the method comprising:
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delivering a first alternating current signal to a first coil antenna of the wireless charger so as to produce a first magnetic field; delivering a second alternating current signal to a second coil antenna of the wireless charger so as to produce a second magnetic field, wherein the second alternating current signal causes at least one of a phase or an amplitude of the second magnetic field to vary with respect to a phase or an amplitude of the first magnetic field; receiving, at the implantable coil, a combined magnetic field comprised of the first and second magnetic fields, wherein the combined magnetic field generates an alternating current signal at the implantable coil; continuously varying at least one of a phase or an amplitude of the second alternating current signal relative to a phase or an amplitude of the first alternating current signal to cause rotation of the combined magnetic field in a first direction; and measuring a voltage at the implantable coil induced by the combined magnetic field; and determining, at the wireless charger, when a level of the voltage measured at the implantable coil falls below a selected voltage level; and in response to determining that the voltage at the implantable coil falls below the selected voltage level, adjusting a variation between at least one of the phase or the amplitude of the second magnetic field with respect to the phase or amplitude of the first magnetic field to cause the combined magnetic field to rotate in a second direction. - View Dependent Claims (2, 3, 4, 5, 6)
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7. An external charger device for an implantable medical device comprising an implantable coil, the external charger device comprising:
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at least first and second coil antennas configured to generate first and second magnetic fields, respectively; and a coil excitation system connected to the first and second coil antennas and configured to; independently drive the first and second coil antennas so that at least one characteristic of the first magnetic field varies, over time, with respect to the same at least one characteristic of the second magnetic field, wherein the first and second magnetic fields generate a combined magnetic field that induces a voltage at the implantable coil, monitor a level of the voltage induced the implantable coil, and determine, based on the level of the voltage induced the implantable coil, a relative difference between the at least one characteristic of the first magnetic field with respect to the same at least one characteristic of the second magnetic field that results in a maximum voltage at the implantable coil; and adjust the at least one characteristic of the first magnetic field with respect to the same at least one characteristic of the second magnetic field to generate a combined magnetic field that substantially produces the maximum voltage at the implantable coil. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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14. An implantable medical device system, comprising:
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an implantable component including an implantable coil; an external charger including; at least first and second external coil antennas in close proximity to one another and configured to emit first and second magnetic fields that collectively generate a combined magnetic field having a combined magnetic field vector; and a coil excitation system connected to the first and second coil antennas and configured to drive the first and second coil antennas with first and second time variant waveforms, respectively, to cause one or more of an amplitude or a phase of the first and second magnetic fields to vary relative to one another over time so as to cause rotation of the combined magnetic field vector; wherein the implantable component is configured to measure a voltage at the implantable coil, and wherein the coil excitation system is further configured to; determine a level of the voltage measured at the implantable coil, determine when the voltage measured at the implantable coil falls below a selected voltage level, and, in response to determining that the voltage measured at the implantable coil falls below the selected voltage level, adjust at least one characteristic of the first time variant waveform with respect to the same at least one characteristic of the second time variant waveform to cause the combined magnetic field to rotate in a second direction. - View Dependent Claims (15, 16, 17)
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18. A method for wireless transfer of power from a wireless charger to an implantable component having an implantable coil, the method comprising:
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delivering a first alternating current signal to a first coil antenna of the wireless charger so as to produce a first magnetic field; delivering a second alternating current signal to a second coil antenna of the wireless charger so as to produce a second magnetic field, wherein the second alternating current signal causes at least one of a phase or an amplitude of the second magnetic field to vary with respect to a phase or an amplitude of the first magnetic field; receiving, at the implantable coil, a combined magnetic field comprised of the first and second magnetic fields, wherein the combined magnetic field generates an alternating current signal at the implantable coil; measuring a voltage at the implantable coil induced by the combined magnetic field; and determining, based on the voltage measured at the implantable coil, a relative phase or amplitude difference between the first and second alternating current signals that results in a maximum voltage at the implantable coil; and adjusting a phase or amplitude of the second alternating current signal with respect to the phase or amplitude of the first alternating current signal to generate a combined magnetic field that substantially produces the maximum voltage at the implantable coil. - View Dependent Claims (19)
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Specification