Method for monitoring end of life for battery
First Claim
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1. A pacemaker, including:
- a battery power terminal for a pacemaker battery;
a pacing supply storage (PSS) capacitor electrically connected to the battery power terminal;
pacemaker control circuitry electrically connected to the battery power terminal and the PSS capacitor for controlling current flow from the battery power terminal to the PSS capacitor to charge the PSS capacitor; and
charge time measurement (CTM) control circuitry electrically connected to the pacemaker control circuitry and adapted to;
access a predetermined set of charge time measurement set-up parameters and a predetermined elective replacement time (ERT) charge time limit determined from a battery resistance ERT target that corresponds to a battery charge depletion target;
determine a rate of charge storage in the PSS capacitor using the predetermined set of charge time measurement set-up parameters;
compare the determined rate of charge storage in the PSS capacitor to the predetermined ERT charge time limit for the predetermined set of charge time measurement set-up parameters; and
declare an ERT based on a number of comparisons between the determined rate of charge storage in the PSS capacitor and the ERT charge time limit, wherein the predetermined set of charge time measurement set-up parameters to be accessed by the CTM control circuitry include;
a physician-programmed final voltage (VF) to end a charge time measurement for determining the rate of charge storage in the PSS capacitor; and
an initial reference voltage (VI) to begin the charge time measurement for determining the rate of charge storage in the PSS capacitor, and wherein the pacemaker control circuitry includes a sensing and pacing control block to select a voltage level (Vd) to which the PSS capacitor is discharged prior to beginning the time measurement for determining the rate of charge storage in the PSS capacitor, Vd being less than VI.
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Abstract
A system is described. The system includes a lithium battery, a charge storage capacitor electrically connected to the lithium battery, a first device, and at least one second device. The first device is electrically connected to the lithium battery and is powered by the lithium battery. The at least one second device is attached to the charge storage capacitor and adapted to read a rate of charge storage in the charge storage capacitor or to calculate the rate of charge storage by measuring both a time of charging and a charge stored or added to the charge storage capacitor during the time of charging.
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Citations
15 Claims
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1. A pacemaker, including:
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a battery power terminal for a pacemaker battery;
a pacing supply storage (PSS) capacitor electrically connected to the battery power terminal;
pacemaker control circuitry electrically connected to the battery power terminal and the PSS capacitor for controlling current flow from the battery power terminal to the PSS capacitor to charge the PSS capacitor; and
charge time measurement (CTM) control circuitry electrically connected to the pacemaker control circuitry and adapted to;
access a predetermined set of charge time measurement set-up parameters and a predetermined elective replacement time (ERT) charge time limit determined from a battery resistance ERT target that corresponds to a battery charge depletion target;
determine a rate of charge storage in the PSS capacitor using the predetermined set of charge time measurement set-up parameters;
compare the determined rate of charge storage in the PSS capacitor to the predetermined ERT charge time limit for the predetermined set of charge time measurement set-up parameters; and
declare an ERT based on a number of comparisons between the determined rate of charge storage in the PSS capacitor and the ERT charge time limit, wherein the predetermined set of charge time measurement set-up parameters to be accessed by the CTM control circuitry include;
a physician-programmed final voltage (VF) to end a charge time measurement for determining the rate of charge storage in the PSS capacitor; and
an initial reference voltage (VI) to begin the charge time measurement for determining the rate of charge storage in the PSS capacitor, and wherein the pacemaker control circuitry includes a sensing and pacing control block to select a voltage level (Vd) to which the PSS capacitor is discharged prior to beginning the time measurement for determining the rate of charge storage in the PSS capacitor, Vd being less than VI. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
the CTM control circuitry includes a multiplexer for selecting one of VF and VI to be compared to a PSS capacitor voltage level (Vsc) within the pacemaker control circuitry for controlling current flow from the battery power terminal to the PSS capacitor; and
the CTM control circuitry is adapted to select VI to be compared to Vsc to begin a time charge measurement and VF to be compared to Vsc to end the time charge measurement.
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6. The pacemaker of claim 1, wherein the CTM control circuitry includes a time charge counter for measuring a time in which a relatively constant current charges the PSS capacitor from VI to VF.
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7. The pacemaker of claim 1, wherein the pacemaker control circuitry includes a sensing and pacing control block adapted for selecting VI relative to VF.
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8. The pacemaker of claim 1, wherein the CTM control circuitry includes a multiplexer for selecting one of the VF, VI and Vd to be compared to a PSS capacitor voltage level (Vsc) for controlling current flow from the battery power terminal to the PSS capacitor.
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9. The pacemaker of claim 8, further comprising:
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a PSS capacitor discharge switch;
a bypass capacitor connected across the battery power terminal;
means to provide a brown out voltage limit;
wherein the CTM control circuitry is adapted to select;
Vd to be compared to Vsc to limit the discharge of the PSS capacitor and open the PSS capacitor discharge switch;
VI to be compared to Vsc to begin a time charge measurement after the bypass capacitor (Cb) is discharged and a battery terminal voltage (Vbatt) is driven to the brownout voltage (Vstop) limit; and
VF to be compared to Vsc to end the time charge measurement.
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10. A system, including:
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a pacemaker, including;
a battery power terminal for a pacemaker battery;
a pacing supply storage (PSS) capacitor electrically connected to the battery power terminal to charge the PSS capacitor;
pacemaker control circuitry electrically connected to the battery power terminal and the PSS capacitor for controlling current flow from the battery power terminal to the PSS capacitor, the pacemaker control circuitry to provide a voltage level (Vd) and to discharge the PSS capacitor to Vd prior to beginning a charge time measurement; and
charge time measurement (CTM) control circuitry electrically connected to the control circuitry and adapted to;
access a predetermined set of charge time measurement set-up parameters, including an initial reference voltage (VI) that is larger than Vd to begin the charge time measurement, and a final voltage (VF) to end the charge time measurement; and
access a predetermined elective replacement time (ERT) charge time limit determined from a battery resistance ERT target that corresponds to a charge depletion target;
determine a rate of charge storage in the PSS capacitor using the predetermined set of charge time measurement set-up parameters;
compare the determined rate of charge storage in the PSS capacitor to the predetermined ERT charge time limit for the predetermined set of charge time measurement set-up parameters; and
declare an ERT based on a number of comparisons between the determined rate of charge storage in the PSS capacitor and the ERT charge time limit; and
a programmer adapted to communicate with the pacemaker, the programmer being adapted to use the determined rate of charge storage and the predetermined set of charge time measurement set-up parameters to assess battery condition by determining the battery resistance. - View Dependent Claims (11, 12, 13, 14)
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15. A pacemaker, including:
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a battery power terminal for a pacemaker battery;
a pacing supply storage (PSS) capacitor;
pacemaker control circuitry, including;
a switch capacitor power supply having an input connected to the battery terminal, an output connected to the PSS capacitor, and a clock input to enable the switch capacitor power supply to charge the PSS capacitor;
a clock signal line, a Vstop reference potential line, and a selectable reference potential (Vx) line;
a first comparator having a first input electrically connected to the battery power terminal, a second input connected to the Vstop reference potential line; and
an output;
a second comparator having a first input connected to the selectable reference potential line, a second input connected to the output of the switch capacitor power supply, and an output; and
at least one logic gate, including a first input connected to the output from the first comparator, a second input connected to the output from the second comparator, a third input connected to the clock signal line, and an output connected to the clock input of the switch capacitor power supply; and
a discharge switch connected to the PSS capacitor;
sensing and pace control circuitry connected to the battery power terminal;
charge time measurement (CTM) control circuitry, including;
a number of registers to hold a Vd value corresponding to a desired discharge voltage for the PSS capacitor, a VI value corresponding to an initial voltage across the PSS capacitor to begin a time charge measurement, and a VF value corresponding to a final voltage across the PSS capacitor to end the time charge measurement;
a multiplexer having an output, the multiplexer being operably connected to the number of registers to selectively pass one of the Vd, VI and VF values to the output of the multiplexer;
a D/A converter connected to the output of the multiplexer to convert the selected one of the Vd, VI and VF values to a potential on the selectable reference potential (Vx) line for comparison to the output of the switch capacitor power supply by the second comparator; and
a control circuit connected to the multiplexer to select one of the Vd, VI and VF values to appropriately control the switch capacitor power supply to charge the PSS capacitor from the discharge voltage to the initial voltage and from the initial voltage to the final voltage, the control circuit being connected to the discharge switch to selectively discharge the PSS capacitor from the final voltage to the desired discharge voltage, the control circuit being connected to the clock signal line, the control circuit including circuitry to determine a rate of charge storage in the PSS capacitor from the initial voltage to the final voltage.
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Specification