Battery monitor with correction for internal OHMIC measurements of battery cells in parallel connected battery strings
First Claim
1. A system for determining resistance of a battery cell in a battery string, comprising:
- a voltage sense circuit operable to measure a voltage drop across a first battery cell in a first string of battery cells and to measure a voltage drop across an intercell connection between the first battery cell and a second adjacent battery cell, where a negative terminal of the first battery cell coupled by the intercell connection to a positive terminal of the second battery cell and the first string of battery cells is coupled in parallel with a second string of battery cells;
a test load circuit that operates to apply a load across the first battery cell and the intercell connection; and
a controller in data communication with the voltage sense circuit, wherein the controller determines a baseline resistance of the intercell connection while the first string of battery cells is electrically isolated from the second string of battery cells and stores the baseline resistance of the intercell connection for subsequent processing,wherein the controller is configured to receive a voltage drop measured across the first battery cell while the load is applied and immediately after the load is released, the controller determines a voltage difference between the voltage drop across the first battery cell while the load is applied and the voltage drop across the first battery cell promptly after releasing the load, determines a current through the intercell connection by dividing a voltage drop measured across the intercell connection by the baseline resistance of the intercell, and determines an internal resistance of the first battery cell from the voltage difference and the current through the intercell connection, where the internal resistance is determined from voltage measures taken while the first string of battery cells is coupled in parallel with a second string of battery cells.
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Abstract
A battery monitor determines an internal resistance of a battery cell of a battery having parallel connected battery strings which accounts for errors introduced by the parallel connected battery strings. When determining the internal resistance of a battery cell, the battery monitor determines a baseline intercell resistance of an intercell connecting the negative terminal of the battery cell to the positive terminal of an adjacent battery. The battery monitor then applies a momentary load across the battery cell and immediately prior to releasing the load, measures the voltage across the battery cell (loaded voltage) and the voltage across the intercell. The battery monitor then calculates the current flowing through the intercell (intercell current) by dividing the measured voltage across the intercell by the determined intercell resistance. Immediately after releasing the load, the battery monitor measures the voltage across the battery cell (recovered voltage) and determines the battery cell internal resistance by dividing the difference between the recovered voltage and the loaded voltage by the intercell current.
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Citations
14 Claims
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1. A system for determining resistance of a battery cell in a battery string, comprising:
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a voltage sense circuit operable to measure a voltage drop across a first battery cell in a first string of battery cells and to measure a voltage drop across an intercell connection between the first battery cell and a second adjacent battery cell, where a negative terminal of the first battery cell coupled by the intercell connection to a positive terminal of the second battery cell and the first string of battery cells is coupled in parallel with a second string of battery cells; a test load circuit that operates to apply a load across the first battery cell and the intercell connection; and a controller in data communication with the voltage sense circuit, wherein the controller determines a baseline resistance of the intercell connection while the first string of battery cells is electrically isolated from the second string of battery cells and stores the baseline resistance of the intercell connection for subsequent processing, wherein the controller is configured to receive a voltage drop measured across the first battery cell while the load is applied and immediately after the load is released, the controller determines a voltage difference between the voltage drop across the first battery cell while the load is applied and the voltage drop across the first battery cell promptly after releasing the load, determines a current through the intercell connection by dividing a voltage drop measured across the intercell connection by the baseline resistance of the intercell, and determines an internal resistance of the first battery cell from the voltage difference and the current through the intercell connection, where the internal resistance is determined from voltage measures taken while the first string of battery cells is coupled in parallel with a second string of battery cells. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A battery monitor device, comprising:
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a voltage sense circuit electrically coupled across a first battery cell and to a positive terminal of a second battery cell, where a negative terminal of the first battery cell coupled by the intercell connection to a positive terminal of the second battery cell, the voltage sense circuit operates to measure a voltage drop across the first battery cell and to measure a voltage drop across the intercell connection between the first battery cell and the second battery cell, where the first battery cell is coupled in series with the second battery cell to form a first string of battery cells; a test load circuit electrically coupled across the first battery cell and the intercell connection and operates to apply a load across the first battery cell and the intercell connection; and a controller in data communication with the first voltage sense circuit, wherein the controller determines a baseline resistance of the intercell connection while the first string of battery cells is electrically isolated from the second string of battery cells and stores the baseline resistance of the intercell connection for subsequent processing, wherein the controller is configured to receive a voltage drop measure across the first battery cell while a load is applied and promptly after the load is released and to determine a voltage difference between the voltage drop across the first battery cell while the load is applied and the voltage drop across the first battery cell promptly after releasing the load, the controller further determines a current through the intercell connection from a voltage drop measured across the intercell connection and the baseline resistance of the intercell and determines an internal resistance of the first battery cell from the voltage difference and the current through the intercell connection, where the internal resistance is determined from voltage measures taken while the first string of battery cells is coupled in parallel with a second string of battery cells. - View Dependent Claims (8, 9)
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10. A method for determining resistance of a battery cell in a battery string of a battery system, comprising:
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measuring a voltage drop across a first battery cell in a first battery string while a load is applied across the first battery cell in a first string of battery cells, a negative terminal of a first battery cell coupled by an intercell connection to a positive terminal of an adjacent second battery cell and the first string of battery cells is coupled in parallel with a second string of battery cells; measuring a voltage drop across the first battery cell promptly after releasing the load across the first battery cell; determining a voltage difference between the voltage drop across the first battery cell while the load is applied and the voltage drop across the first battery cell promptly after releasing the load; determining a baseline resistance of the intercell connection prior to the steps of measuring a voltage drop and while the first string of battery cells is electrically isolated from the second string of battery cells; measuring a voltage drop across the intercell connection while the load is applied; determining current through the intercell connection by dividing the voltage drop across the intercell connection by the baseline resistance of the intercell; and determining an internal resistance of the first battery cell from the voltage difference and the current through the intercell connection. - View Dependent Claims (11, 12, 13, 14)
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Specification