Method and apparatus for battery depletion monitoring
First Claim
1. A method for metering remaining longevity of an implantable medical device battery, comprising the steps of:
- (a) generating a first signal having a first value corresponding to a measured internal impedance of said battery;
(b) generating a second signal having a second value corresponding to time-from-implant of said measured internal impedance;
(c) defining a nomograph having a plurality of time lines, impedance curves, and constant current-drain lines therein, said nomograph relating each one of said plurality of constant current lines to an estimate of battery longevity;
(d) locating in said nomograph an impedance curve corresponding to said first value;
(e) locating in said nomograph an intersection point between said corresponding impedance curve and a time line corresponding to said second value;
(f) repeating steps (a), (b), (d) and (e) at least once to locate a plurality of said intersection points;
(g) nomographically extrapolating an estimate of battery longevity based upon said plurality of intersection points; and
(h) generating a third signal having a third value corresponding to said longevity estimation.
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Accused Products
Abstract
A method and apparatus for estimating the remaining capacity of a lithium-iodine battery through the nomographic analysis of two or more measurements of battery impedance. In a preferred embodiment, a pacemaker or other implantable medical device is provided with circuitry for periodically measuring the internal impedance of its battery. Each measurement of impedance is stored along with an indication of when such measurement was made. Nomographic analysis, based upon the rated capacity of the battery and the expected internal impedance at various stages of depletion, allows for two or more time-stamped impedance measurements to serve as the basis for an extrapolation to estimate the remaining service life of the implantable medical device. Nomographic analysis may be performed by circuitry contained in the implanted device itself; in the alternative, periodic impedance measurements may be communicated to external processing circuitry via a telemetry channel.
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Citations
11 Claims
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1. A method for metering remaining longevity of an implantable medical device battery, comprising the steps of:
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(a) generating a first signal having a first value corresponding to a measured internal impedance of said battery; (b) generating a second signal having a second value corresponding to time-from-implant of said measured internal impedance; (c) defining a nomograph having a plurality of time lines, impedance curves, and constant current-drain lines therein, said nomograph relating each one of said plurality of constant current lines to an estimate of battery longevity; (d) locating in said nomograph an impedance curve corresponding to said first value; (e) locating in said nomograph an intersection point between said corresponding impedance curve and a time line corresponding to said second value; (f) repeating steps (a), (b), (d) and (e) at least once to locate a plurality of said intersection points; (g) nomographically extrapolating an estimate of battery longevity based upon said plurality of intersection points; and (h) generating a third signal having a third value corresponding to said longevity estimation.
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2. A pacemaker system, comprising:
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an implantable housing containing a battery means for powering said pacemaker; a battery impedance measurement circuit means for generating impedance signals corresponding to measured impedances of said battery; a transmitting means for transmitting said impedance signals; and a telemetry unit means for receiving said impedance signals, wherein said telemetry unit further comprises means for generating time values indicating when said impedance signals were generated, and means for calculating estimated battery longevity based upon said impedance signals and said time values. - View Dependent Claims (3, 4, 5, 6, 7)
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8. A system for determining longevity of an implantable device battery, comprising:
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an implantable device housing containing a battery; an impedance measurement circuit for generating impedance signals corresponding to measured impedances of said battery; means for generating time values corresponding to times of generation of said impedance signals; and means for calculating estimated battery longevity based upon said impedance signals and said time values. - View Dependent Claims (9, 10, 11)
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Specification