Method and apparatus for testing cells and batteries embedded in series/parallel systems
First Claim
1. Apparatus for evaluating a dynamic parameter of an element embedded in a system of interconnected electrochemical cells or batteries, said element bounded by first and second electrical contact points, comprising:
- dynamic parameter measuring circuitry simultaneously coupled to said first and second contact points and rendering a first dynamic parameter measurement, simultaneously coupled to said second contact point and to a third electrical contact point displaced on a conducting path from said second contact point and rendering a second dynamic parameter measurement, and simultaneously coupled to said third contact point and to said first contact point and rendering a third dynamic parameter measurement, and;
computation circuitry adapted to compute said dynamic parameter of said element from said first, second, and third dynamic parameter measurements.
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Abstract
A “three-point” measurement technique effectively removes system effects to determine impedance, admittance, resistance, or conductance of an individual cell, battery, or interconnecting conductor embedded in a series or series-parallel electrochemical battery or fuel cell system. Three electrical contact points are defined. Two of these points bound the subject element. The third point is separated from the other two by a conducting path that may include one or more cells or batteries. By measuring dynamic parameters between alternate pairs of contact points, three dynamic parameter measurements are acquired. A mathematical computation combines the measurements and determines the dynamic parameter of a subject element as if it were alone—thus effectively “de-embedding” the subject element from the remainder of the system. A “four-point” extension of this technique permits measuring a dynamic parameter of a cell/battery disposed in a multiple-unit string of parallel-connected cells/batteries.
116 Citations
74 Claims
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1. Apparatus for evaluating a dynamic parameter of an element embedded in a system of interconnected electrochemical cells or batteries, said element bounded by first and second electrical contact points, comprising:
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dynamic parameter measuring circuitry simultaneously coupled to said first and second contact points and rendering a first dynamic parameter measurement, simultaneously coupled to said second contact point and to a third electrical contact point displaced on a conducting path from said second contact point and rendering a second dynamic parameter measurement, and simultaneously coupled to said third contact point and to said first contact point and rendering a third dynamic parameter measurement, and;
computation circuitry adapted to compute said dynamic parameter of said element from said first, second, and third dynamic parameter measurements. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 15, 16, 17, 18, 19, 20, 21, 22, 23, 25, 26, 27, 28, 29, 30, 59, 60)
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14. A method for evaluating a dynamic parameter of an element embedded in a system of interconnected electrochemical cells or batteries, said element bounded by first and second electrical contact points, comprising:
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obtaining a first dynamic parameter value existent between said first and second electrical contact points;
obtaining a second dynamic parameter value existent between said second electrical contact point and a third electrical contact point in said system;
obtaining a third dynamic parameter value existent between said third electrical contact point and said first electrical contact point; and
,computing said dynamic parameter of said element from said first, second, and third dynamic parameter values.
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24. A method for evaluating a dynamic parameter of an electrochemical cell or battery embedded internally in an array of parallel-connected electrochemical cells or batteries comprising:
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obtaining a first dynamic parameter value existent between first and second contact points comprising terminals of said electrochemical cell or battery;
obtaining a second dynamic parameter value existent between said second contact point and a third contact point disposed on a first conducting path proceeding from said second contact point;
obtaining a third dynamic parameter value existent between said second contact point and a fourth contact point disposed on a second conducting path proceeding from said second contact point;
obtaining a fourth dynamic parameter value existent between said third contact point and said first contact point;
obtaining a fifth dynamic parameter value existent between said fourth contact point and said first contact point; and
,computing said dynamic parameter of said electrochemical cell or battery from said first, second, third, fourth, and fifth dynamic parameter values.
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31. A method for evaluating a dynamic parameter of an interconnecting conductor embedded internally in an array of parallel-connected electrochemical cells or batteries comprising:
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obtaining a first dynamic parameter value existent between first and second contact points bounding said interconnecting conductor, said second contact point comprising a first terminal of a cell or battery;
obtaining a second dynamic parameter value existent between said second contact point and a third contact point comprising a second terminal of said cell or battery;
obtaining a third dynamic parameter value existent between said first and third contact points; and
,computing said dynamic parameter of said interconnecting conductor from said first, second, and third dynamic parameter values. - View Dependent Claims (32, 33, 34, 35, 36, 37, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 61)
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38. Apparatus for evaluating dynamic parameters of first and second adjacent electrical elements having a common connecting point and embedded in a system of interconnected electrochemical cells or batteries comprising:
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dynamic parameter measuring circuitry simultaneously coupled to said first element at a first contact point and said common connecting point and rendering a first dynamic parameter measurement, simultaneously coupled to said second element at a second contact point and said common connecting point and rendering a second dynamic parameter measurement, and simultaneously coupled to said first and second contact points and rendering a third dynamic parameter measurement;
computation circuitry adapted to compute said dynamic parameters of said first and second adjacent electrical elements from said first, second, and third dynamic parameter measurements.
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50. A method for evaluating dynamic parameters of first and second adjacent electrical elements having a common connecting point and embedded in a system of interconnected electrochemical cells or batteries comprising:
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obtaining a first dynamic parameter value existent between said common connecting point and a first contact point bounding said first electrical element;
obtaining a second dynamic parameter value existent between said common connecting point and a second contact point bounding said second electrical element;
obtaining a third dynamic parameter value existent between said first and second contact points; and
,computing said dynamic parameters of said first and second adjacent electrical elements from said first, second, and third dynamic parameter values. - View Dependent Claims (51, 52, 53, 54, 55, 56, 57, 58, 62)
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63. Apparatus for de-embedding dynamic parameters of electrical elements embedded in a system of electrochemical cells/batteries and conductors interconnected at a plurality of interconnection points comprising:
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dynamic parameter measuring circuitry including two input probes, said measuring circuitry adapted to measure a dynamic parameter of an isolated electrical element coupled between said input probes;
at least three system-contacting probes adapted to simultaneously couple to elements of said system at three or more electrical contact points;
switching circuitry interposed between said input probes and said system-contacting probes and adapted to controllably couple said input probes to selected pairs of said system-contacting probes;
control circuitry adapted to command said switching circuitry to consecutively couple different pairs of said system-contacting probes to said input probes and to command said dynamic parameter measuring circuitry to measure a dynamic parameter value during each said coupling;
memory circuitry adapted to store each said measured dynamic parameter value; and
,computation circuitry adapted to compute one or more de-embedded dynamic parameters from said measured dynamic parameter values stored in said memory circuitry. - View Dependent Claims (64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74)
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Specification