System and method for reducing noise in an implantable medical device
First Claim
1. An implantable medical device (IMD), comprising:
- a charge storage device;
a charging circuit coupled to store energy on the charge storage device, the charging circuit having an enabled state and a disabled state; and
a control circuit coupled to the charging circuit to cause the charging circuit to transition from the disabled state to the enabled state over a first period of time, wherein the control circuit includes a circuit to cause the charging circuit to transition from the enabled state to the disabled state over a second period of time and the control circuit includes a signal generation circuit to generate a pulse train with a variable duty cycle, and wherein the duty cycle of pulses in the pulse train ma be increased over the first period of time to cause the charging circuit to transition from the disabled state to the enabled state.
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Accused Products
Abstract
A system and method for reducing the amount of noise causes by inductive elements within an implantable medical device. In particular, the invention provides a system for gradually initiating and terminating the current flow within inductive elements such as transformers that are used to charge energy storage devices such as high-voltage capacitors of an implantable cardio/defibrillator. This more gradual change in the rate of current flow prevents ground shifts and subsequent noise spikes within the device. This, in turn, allows cardiac signals to be sensed more accurately by sensing circuits, preventing oversensing, and minimizing the occurrence of inappropriate shock delivery.
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Citations
25 Claims
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1. An implantable medical device (IMD), comprising:
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a charge storage device;
a charging circuit coupled to store energy on the charge storage device, the charging circuit having an enabled state and a disabled state; and
a control circuit coupled to the charging circuit to cause the charging circuit to transition from the disabled state to the enabled state over a first period of time, wherein the control circuit includes a circuit to cause the charging circuit to transition from the enabled state to the disabled state over a second period of time and the control circuit includes a signal generation circuit to generate a pulse train with a variable duty cycle, and wherein the duty cycle of pulses in the pulse train ma be increased over the first period of time to cause the charging circuit to transition from the disabled state to the enabled state. - View Dependent Claims (2, 3, 4)
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5. An implantable medical device (IMD), comprising:
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a charge storage device;
a charging circuit coupled to store energy on the charge storage device, the charging circuit having an enabled state and a disabled state; and
a control circuit coupled to the charging circuit to cause the charging circuit to transition from the disabled state to the enabled state over a first period of time, wherein the control circuit includes a circuit to cause the charging circuit to transition from the enabled state to the disabled state over a second period of time, wherein the control circuit includes a signal generation circuit to generate a pulse train, and wherein the frequency of pulses in the pulse train may be increased over the first period of time to cause the charging circuit to transition from the disabled state to the enabled state. - View Dependent Claims (6)
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7. An implantable medical device (IMD), comprising:
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a charge storage device;
a charging circuit coupled to store energy on the charge storage device, the charging circuit having an enabled state and a disabled state; and
a control circuit coupled to the charging circuit to cause the charging circuit to transition from the disabled state to the enabled state over a first period of time, wherein the control circuit includes a circuit to cause the charging circuit to transition from the enabled state to the disabled state over a second period of time, and further including a telemetry circuit in proximity to the charging circuit, and wherein the control circuit further includes a circuit to temporarily interrupt a charging operation for a predetermined period of time when the charging circuit is in the enabled state, and to thereafter enable a transmission between the telemetry circuit and a device external to the IMD while the charging operation is temporarily interrupted.
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8. An implantable medical device (IMD), comprising:
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a charge storage device;
a charging circuit coupled to store energy on the charge storage device, the charging circuit having an enabled state and a disabled state; and
a control circuit coupled to the charging circuit to cause the charging circuit to transition from the disabled state to the enabled state over a first period of time, wherein the control circuit includes a circuit to cause the charging circuit to transition from the enabled state to the disabled state over a second period of time, wherein the charge storage device is a high-voltage capacitor.
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9. An implantable medical device (IMD), comprising:
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an energy storage device;
a charging circuit coupled to store charge on the energy storage device; and
a control circuit coupled to the charging circuit, the control circuit to cause the charging circuit to store charge at a varying charge rate, wherein the control circuit includes a circuit to cause the charging circuit to increase the charge rate from a rate wherein substantially no charge is being stored to a second predetermined rate and the control circuit includes a circuit to cause the charging circuit to decrease the charge rate from the second predetermined rate to the rate wherein substantially no charge is being stored, and wherein the control circuit includes a signal generation circuit that generates a pulse train having a variable duty cycle. - View Dependent Claims (10)
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11. An implantable medical device (IMD), comprising:
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a storage device;
a charging circuit coupled to store charge on the energy storage device; and
a control circuit coupled to the charging circuit, the control circuit to cause the charging circuit to store charge at a varying charge rate, wherein the control circuit includes a circuit to cause the charging circuit to increase the charge rate from a rate wherein substantially no charge is being stored to a second predetermined rate and the control circuit includes a circuit to cause the charging circuit to decrease the charge rate from the second predetermined rate to the rate wherein substantially no charge is being stored, and wherein the control circuit includes a signal generation circuit that generates a pulse train having a variable frequency.
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12. An implantable medical device (IMD), comprising:
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an energy storage device;
a charging circuit coupled to store charge on the energy storage device;
a control circuit coupled to the charging circuit, the control circuit to cause the charging circuit to store charge at a varying charge rate; and
a communication circuit coupled to the charge circuit, wherein the control circuit includes a circuit to cause the charging circuit to increase the charge rate from a rate wherein substantially no charge is being stored to a second predetermined rate and the control circuit includes a circuit to cause the charging circuit to decrease the charge rate from the second predetermined rate to the rate wherein substantially no charge is being stored, and wherein the control circuit includes a circuit to temporarily interrupt charging of the charge circuit to allow the communication circuit to transmit data to an external device.
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13. A method for use in an implantable medical device (IMD), the IMD including a ground plane and a charge storage device, the method comprising the steps of:
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a.) initiating storing of a charge on the charge storage device; and
b.) controlling the rate of the storing of the charge in a manner that maintains the ground plane of the IMD at a substantially constant voltage potential. - View Dependent Claims (14, 15, 16, 17, 18)
interrupt the storing of the charge temporarily; and
performing a communication operation between the IMD and an external device during the interruption of the storing of the charge.
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19. An implantable medical device, comprising:
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means for storing a charge;
means for initiating storing of a charge on the charging means; and
means for controlling the rate of the storing of the charge in a manner that maintains a ground plane of the device at a substantially constant voltage potential. - View Dependent Claims (20, 21, 22, 23, 24, 25)
means for interrupt the storing of the charge temporarily; and
means for performing a communication operation between the device and an external device during the interruption of the storing of the charge.
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25. The device of claim 22, further comprising:
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means for interrupting the storing of the charge temporarily; and
means for performing a communication operation between the device and an external device during the interruption of the storing of the charge.
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Specification