Battery state of charge determination with plural periodic measurements to determine its internal impedance and geometric capacitance
First Claim
1. A method of measuring depth-of-discharge of a battery delivering a voltage between first and second battery terminals, comprising the steps of measuring said battery'"'"'s internal impedance and measuring said battery'"'"'s geometric capacitance, wherein said step of measuring said battery'"'"'s internal impedance Rbatt comprises the sub-steps of:
- (a) coupling a known impedance Rk between said first and second terminals;
(b) measuring a voltage Vk between said first and second terminals during a time interval extending from one to ten milliseconds after said step of coupling said known impedance;
(c) removing said known impedance from said first and second terminals;
(d) measuring voltage Voc between said first and second terminals during a time interval extending from one to ten milliseconds after said step of removing said known impedance;
(e) computing said internal impedance according to the formula ##EQU7## and wherein said step of measuring said battery'"'"'s geometric capacitance comprises the sub-steps of;
(f) alternately coupling and decoupling a known impedance Rk2 between said first and second battery terminals at a periodic rate T;
(g) measuring a voltage Voc2 between said battery terminals when said known impedance Rk2 is decoupled from said battery terminals in step (f);
(h) measuring a voltage Vk2 between said battery terminals when said known impedance Rk2 is coupled to said battery terminals in step (f);
(i) computing said geometric capacitance according to the formula ##EQU8##
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Accused Products
Abstract
A method and apparatus for measuring the depletion level (depth of discharge) of a lithium-iodine battery in an implantable medical device. A first set of measurements are made to determine the internal impedance of the battery, and a second set of measurements are made to determine the geometric capacitance of the battery, which has been found to correlate closely to the depth of discharge of the battery. The measurements are all made while the pacemaker is first temporarily decoupled from the medical device circuitry. The first measurements are made during a time window following a known change in resistive load across the terminals of the battery, and are capable of being correlated with 1-kHz qualification testing data made on the battery at the time of manufacture. The second measurements are made when the known load is periodically coupled and decoupled to the terminals of the battery at a rate of 80-kHz. The resulting data can be used to monitor depth of discharge throughout the operable life of the battery.
185 Citations
4 Claims
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1. A method of measuring depth-of-discharge of a battery delivering a voltage between first and second battery terminals, comprising the steps of measuring said battery'"'"'s internal impedance and measuring said battery'"'"'s geometric capacitance, wherein said step of measuring said battery'"'"'s internal impedance Rbatt comprises the sub-steps of:
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(a) coupling a known impedance Rk between said first and second terminals; (b) measuring a voltage Vk between said first and second terminals during a time interval extending from one to ten milliseconds after said step of coupling said known impedance; (c) removing said known impedance from said first and second terminals; (d) measuring voltage Voc between said first and second terminals during a time interval extending from one to ten milliseconds after said step of removing said known impedance; (e) computing said internal impedance according to the formula ##EQU7## and wherein said step of measuring said battery'"'"'s geometric capacitance comprises the sub-steps of; (f) alternately coupling and decoupling a known impedance Rk2 between said first and second battery terminals at a periodic rate T; (g) measuring a voltage Voc2 between said battery terminals when said known impedance Rk2 is decoupled from said battery terminals in step (f); (h) measuring a voltage Vk2 between said battery terminals when said known impedance Rk2 is coupled to said battery terminals in step (f); (i) computing said geometric capacitance according to the formula ##EQU8## - View Dependent Claims (2)
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3. An apparatus for measuring depth-of-discharge of a lithium-iodine battery in an implantable device, said battery having first and second battery terminals, said apparatus comprising:
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(a) a decoupling circuit adapted to temporarily isolate said first and second terminals; (b) a loading circuit, coupled between said first and second battery terminals and adapted to alternately couple and decouple a known impedance Rk between said first and second battery terminals at a first periodic rate; (c) a voltage measurement circuit, responsive to said loading circuit operating at said first periodic rate to measure a voltage Vk between said first and second battery terminals during a predetermined time interval after said known impedance is coupled between said first and second battery terminals and further adapted to measure a voltage Voc between said first and second battery terminals during a predetermined time interval after said known impedance is decoupled from between said first and second battery terminals; (d) a computation circuit, coupled to said voltage measurement circuit and adapted to compute said battery'"'"'s internal impedance using said Vk and Voc values; (e) said loading circuit being further adapted to alternately couple and decouple said known impedance between said first and second terminals at a second periodic rate; (f) said voltage measurement circuit further responsive to said loading circuit operating at said second periodic rate to repeatedly and at said second periodic rate, measure voltage between said battery terminals; (g) said computation circuit being further adapted to compute said battery'"'"'s geometric capacitance using said voltage measurements taken at said second periodic rate. - View Dependent Claims (4)
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Specification