Power management system for an implantable device
First Claim
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1. A method for delivering energy to a load from a battery having an output voltage, comprising the steps of:
- comparing the output voltage to a threshold voltage using a controller;
if the output voltage exceeds the threshold voltage, delivering energy to the load; and
if the output voltage falls below the threshold voltage, terminating delivery of energy to the load until the output voltage exceeds the threshold voltage, wherein the threshold voltage is greater than a reset voltage of the controller and the step of comparing is repeated in less than a voltage recovery time.
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Abstract
A power management system for an implantable device is disclosed. One application is an implantable cardioverter/defibrillator. Charging circuits for implantable cardioverter/defibrillators require relatively large currents from the power supply. The present power management system provides extended device operation and reduced charge cycle time. The present system monitors both current and voltage drawn from the power supply to prevent a loss of system voltage. Elective replacement indication is performed using charging information provided by the present power management system.
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Citations
17 Claims
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1. A method for delivering energy to a load from a battery having an output voltage, comprising the steps of:
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comparing the output voltage to a threshold voltage using a controller; if the output voltage exceeds the threshold voltage, delivering energy to the load; and if the output voltage falls below the threshold voltage, terminating delivery of energy to the load until the output voltage exceeds the threshold voltage, wherein the threshold voltage is greater than a reset voltage of the controller and the step of comparing is repeated in less than a voltage recovery time. - View Dependent Claims (2, 3, 4, 5)
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6. A power manager, comprising:
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a power supply including one or more batteries having output terminals and an output voltage across the output terminals, the one or more batteries having a voltage recovery time; a comparator, monitoring the output voltage of the power supply, having an output signal which is a first signal when the output voltage of the power supply is below a selected threshold voltage and a second signal when the output voltage of the power supply is above or equal to the selected threshold voltage; a switch, connected to the power supply, for switching a load across the power supply, the switch receiving an input signal to close and open the switch; and a controller, receiving the output signal of the comparator and transmitting the input signal to the switch to open and close the switch, wherein the controller closes the switch to provide power to the load when receiving the second signal and opens the switch when receiving the first signal, wherein the power manager provides a minimum switching time which is less than the voltage recovery time. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A power manager, comprising:
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a power supply having output terminals and an output voltage across the output terminals; a comparator, monitoring the output voltage of the power supply, having an output signal which is a first signal when the output voltage of the power supply is below a selected threshold voltage and a second signal when the output voltage of the power supply is above or equal to the selected threshold voltage; a switch, connected to the power supply, for switching a load across the power supply, the switch receiving an input signal to close and open the switch; a controller, receiving the output signal of the comparator and transmitting the input signal to the switch to open and close the switch, wherein the controller closes the switch to provide power to the load when receiving the second signal and opens the switch when receiving the first signal; where the load is an inverter having a capacitive storage device which is repeatedly switched to charge the capacitive storage device and wherein the controller is a hardware comparator loop; and wherein the switching is self-oscillating and is performed by sensing a ringback signal from a primary coil of the inverter to initiate a subsequent switching event.
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Specification