Method of measuring remaining capacity of a storage cell by comparing impedance plot characteristics
First Claim
1. A method of measuring the remaining capacity of an unknown-capacity storage cell comprising the steps of:
- measuring the impedances of one or more known-capacity cells each at a separate plurality of frequencies in the range of 0.001 and 1.0 Hz, followed by determining the intercept or intercepts, respectively, for each such one or more known-capacity cells, at the reciprocal of the square root of frequency equal to zero, of a best-fitting straight line of a plot of the imaginary part of the impedance of each such known-capacity cell vs. the reciprocal of the square root of the frequency at which such impedance was respectively measured for each such known-capacity cell;
measuring a first impedance of the unknown-capacity cell at a first frequency in said frequency range, followed by measuring a second impedance of the unknown-capacity cell at a second frequency, different from the first frequency, in said approximate range, followed by the step of determining the intercept, at the reciprocal of the square root of frequency equal to zero, of a straight line drawn through a plot of the imaginary part of the first and second impedances vs. the reciprocals of the square roots of the first and second frequencies, respectively;
comparing the intercept measured for the unknown-capacity cell with the intercept or intercepts measured for the one or more known-capacity cells; and
determining the remaining capacity of the unknown-capacity storage cell from said comparing.
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Accused Products
Abstract
The remaining capacity of a storage cell, particularly a valve regulated lead-acid cell, is determined by measuring its impedance at typically two or three relatively low frequencies f, e.g., frequencies in the approximate range of 0.001 to 1.0 Hz. In one application, the imaginary part Z" of the complex impedance Z(=Z'"'"'+jZ") is plotted vs. f-1/2, whereby the intercept Z"o (at f-1/2 =0) of the bestfitting straight line of the plot is a measure of the cell'"'"'s remaining capacity. In another application, the slope (dZ"/dZ'"'"') of a plot of the imaginary part Z" vs. real part Z'"'"' of the complex impedance Z, again as measured at relatively low frequencies f, is a measure of the cell'"'"'s remaining capacity.
208 Citations
12 Claims
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1. A method of measuring the remaining capacity of an unknown-capacity storage cell comprising the steps of:
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measuring the impedances of one or more known-capacity cells each at a separate plurality of frequencies in the range of 0.001 and 1.0 Hz, followed by determining the intercept or intercepts, respectively, for each such one or more known-capacity cells, at the reciprocal of the square root of frequency equal to zero, of a best-fitting straight line of a plot of the imaginary part of the impedance of each such known-capacity cell vs. the reciprocal of the square root of the frequency at which such impedance was respectively measured for each such known-capacity cell; measuring a first impedance of the unknown-capacity cell at a first frequency in said frequency range, followed by measuring a second impedance of the unknown-capacity cell at a second frequency, different from the first frequency, in said approximate range, followed by the step of determining the intercept, at the reciprocal of the square root of frequency equal to zero, of a straight line drawn through a plot of the imaginary part of the first and second impedances vs. the reciprocals of the square roots of the first and second frequencies, respectively; comparing the intercept measured for the unknown-capacity cell with the intercept or intercepts measured for the one or more known-capacity cells; and determining the remaining capacity of the unknown-capacity storage cell from said comparing. - View Dependent Claims (3, 4, 5)
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2. A method of measuring the remaining capacity of an unknown-capacity storage cell comprising the steps of
measuring the imaginary part of the impedances of one or more known-capacity storage cells each at a separate plurality of frequencies in the range of 0.001 to 1.0 Hz, followed by determining the intercept for each such one or more known-capacity cell at the reciprocal of the square root of frequency equal to zero, of a best-fitting straight line of a plot of said imaginary part of the impedances of each such one or more known-capacity cell vs. the square root of the frequency at which such imaginary part of the impedance was respectively measured for each such one or more known-capacity cells; -
measuring the imaginary part of the impedance of the cell at a plurality of frequencies, each such frequency being in said approximate frequency range, followed by the step of determining the intercept, at the reciprocal of square root of frequency equal to zero, of a best-fitting straight line of the imaginary part of the impedances vs. the reciprocal of the square-roots of the respective frequencies; comparing the intercept measured for the unknown-capacity cell with the intercept or intercepts measured for the one or more known-capacity cells; and determining the remaining capacity of the unknown-capacity storage cell from said comparing.
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6. A method of measuring the remaining capacity of an unknown-capacity storage cell, comprising the steps of
measuring the impedances of one or more known-capacity cells each at a separate multiplicity of frequencies, followed by determining the intercept or intercepts, respectively, for each of such one or more known-capacity cells, at the reciprocal of the square root of frequency equals zero, of a best fitting straight line of the imaginary part of the impedance of each such known-capacity cell vs. the reciprocal of the square root of the frequency at which such impedance was respectively measured for each such known-capacity cell; -
measuring the impedances of the unknown-capacity cell at a plurality of frequencies; determining the intercept, at the reciprocal of the square root of frequency equal to zero, of a best-fitting straight line of a plot of the imaginary part of the impedances vs. the reciprocal square roots of the respective frequencies; comparing the intercept measured for the unknown-capacity cell with the intercept or intercepts respectively measured for the one or more known cells; and determining the remaining capacity of the unknown-capacity storage cell from said comparing.
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7. A method of measuring the remaining capacity of an unknown-capacity storage cell comprising the steps of:
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(a) measuring the real and the imaginary parts of the impedances of one or more known-capacity cells each at a separate plurality of different frequencies falling within a predetermined frequency range; (b) determining the slope of a best-fitting straight line of a plot of the imaginary part vs. the real part of the measured impedances of the one or more known-capacity cells; (c) measuring the real and the imaginary parts of the impedances of the unknown-capacity cell at a multiplicity of different frequencies falling within the predetermined frequency range, (d) determining the slope of a best-fitting straight line of a plot of the imaginary part vs. the real part of the measured impedances of the known-capacity cell; (e) comparing the slope of step (b) with the slope of step (d); and (f) determining the remaining capacity of the unknown-capacity storage cell from said comparing. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification