Programmable current exciter for measuring AC immittance of cells and batteries
First Claim
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1. Apparatus for passing a periodic time-varying current at a particular measurement frequency through an electrochemical cell or battery comprising:
- an auxiliary dc power supply contacting a first terminal of said cell or battery and adapted to inject current into said cell or battery in the charging direction;
a resistor contacting a second terminal of said cell or battery and adapted to conduct current through said cell or battery in either the charging direction or the discharging direction;
a pair of complementary transistors connected in series across said auxiliary dc power supply and arranged to conduct current through said resistor in either the charging direction or the discharging direction;
an operational amplifier arranged to sense the voltage across said resistor at an inverting input and to control conduction of said complementary transistors; and
, a signal source delivering a periodic control signal at said measurement frequency to a noninverting input of said operational amplifier.
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Abstract
An exciter of periodic square-wave current for measurement of complex ac impedance or admittance is described. A microcontroller/processor outputs two digital words that define upper and lower current levels. These words are latched and converted to analog voltages by D/A converter circuitry. A timing signal at the measurement frequency, also outputted by the microprocessor/controller, controls a multiplexer arranged to select either analog voltage. The multiplexer output thus toggles between the two programmed analog voltages at the measurement frequency.
By virtue of negative feedback, the toggled multiplexer output voltage equals the voltage developed across a resistance in series with the cell/battery. Two complementary transistors and a dc voltage source are arranged such that a positive multiplexer output directs a programmed current through this resistance in the “discharge” direction, and a negative multiplexer output directs a programmed current through it in the “charge” direction. Accordingly, the current through the cell/battery is a symmetrical square wave having frequency, amplitude, average value, and average flow direction completely under program control.
359 Citations
35 Claims
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1. Apparatus for passing a periodic time-varying current at a particular measurement frequency through an electrochemical cell or battery comprising:
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an auxiliary dc power supply contacting a first terminal of said cell or battery and adapted to inject current into said cell or battery in the charging direction;
a resistor contacting a second terminal of said cell or battery and adapted to conduct current through said cell or battery in either the charging direction or the discharging direction;
a pair of complementary transistors connected in series across said auxiliary dc power supply and arranged to conduct current through said resistor in either the charging direction or the discharging direction;
an operational amplifier arranged to sense the voltage across said resistor at an inverting input and to control conduction of said complementary transistors; and
,a signal source delivering a periodic control signal at said measurement frequency to a noninverting input of said operational amplifier. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. Apparatus for exciting an electrochemical cell or battery with a time-varying current comprising:
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an auxiliary dc power source having terminal voltage larger than the terminal voltage of said electrochemical cell or battery;
a pair of transistors connected to said cell or battery and to said auxiliary dc power source, the first one of said transistors arranged to pass current through said cell or battery in the discharging direction, the second one of said transistors arranged to pass current from said auxiliary dc power source through said electrochemical cell or battery in the charging direction;
a resistor arranged to conduct current through said cell or battery in either said discharging direction or in said charging direction;
an operational amplifier arranged to control conduction of said pair of transistors, an inverting input of said operational amplifier connected to sense the voltage developed across said resistor, a non-inverting input of said operational amplifier connected to accept a time-varying control signal; and
,a signal source arranged to deliver said time-varying control signal to said non-inverting input of said operational amplifier. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. A method for exciting an electrochemical cell or battery with a square wave current at a particular frequency comprising:
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latching a first digital word representative of a first level of said square wave current;
latching a second digital word representative of a second level of said square wave current;
converting said first and second digital words into first and second analog voltages;
alternately selecting each of said first and second analog voltages in synchronism with a timing signal at said particular frequency; and
,passing a current through said electrochemical cell or battery in accordance with the said analog voltage selected. - View Dependent Claims (24, 25, 26, 28, 32)
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27. A method as in wherein the average value of said square wave current is zero.
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29. A method for passing a square wave current having zero average value through an electrochemical cell or battery during measurement of at least one component of complex immittance comprising the steps of:
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a. passing a constant current of particular amplitude through said electrochemical cell or battery in the charging direction for a fixed interval of time;
b. passing a constant current of the same said particular amplitude through said electrochemical cell or battery in the discharging direction for the same said fixed interval of time; and
,c. alternately repeating steps a and b. - View Dependent Claims (33, 34)
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30. A method for passing a square wave current comprising a net charging current through an electrochemical cell or battery during measurement of at least one component of complex immittance comprising the steps of:
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a. passing a constant current of particular amplitude through said electrochemical cell or battery in the charging direction for a fixed interval of time;
b. passing a constant current of amplitude smaller than said particular amplitude through said electrochemical cell or battery in the discharging direction for the same said fixed interval of time; and
,c. alternately repeating steps a and b.
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31. A method for passing a square wave current comprising a net discharging current through an electrochemical cell or battery during measurement of at least one component of complex immittance comprising the steps of:
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a. passing a constant current of particular amplitude through said electrochemical cell or battery in the charging direction for a fixed interval of time;
b. passing a constant current of amplitude larger than said particular amplitude through said electrochemical cell or battery in the discharging direction for the same said fixed interval of time; and
,c. alternately repeating steps a and b. - View Dependent Claims (35)
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Specification
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Current AssigneeKeith S Champlin
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Original AssigneeKeith S Champlin
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InventorsChamplin, Keith S.
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Primary Examiner(s)Tso, Edward H.
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Application NumberUS10/270,777Publication NumberTime in Patent Office336 DaysField of Search324/426, 324/429, 324/460, 324/433, 320/132, 320/134, 320/133, 320/136, 320/139, 320/141, 320/130US Class Current324/426CPC Class CodesG01R 31/389 Measuring internal impedanc...
