Method and apparatus for measuring pure resistance of in-vehicle battery
First Claim
1. A method for measuring a pure resistance of an in-vehicle battery which supplies electric power to a load of the vehicle comprising the steps of:
- periodically measuring a terminal voltage and a discharging current of the in-vehicle battery when the discharging current, which increases monotonously to exceed a prescribed value and decreases monotonously from the maximum value to the prescribed value or lower, flows, thereby acquiring a first approximate equation of a voltage-current characteristic curve, indicative of correlation between the terminal voltage and the discharging current, for an increasing discharging current and a second approximate equation of the voltage-current characteristic for a decreasing discharging current;
setting a first point on the voltage-current characteristic curve represented by said first approximate equation and a second point on the voltage-current characteristic curve represent by said second approximate equation;
assuming a first assumed point and a second assumed point on the voltage-current curves represented by the first approximate equation and the second approximate equation, the first assumed point providing the same resistance as a second synthesized resistance composed of a pure resistance of the battery and a second polarization resistance component, which produces a second voltage drop when a second discharging current corresponding to said second point flows, and the second assumed point providing the same resistance as a first synthesized resistance composed of the pure resistance of the battery and a first polarization resistance component, which produces a first voltage drop when a first discharging current corresponding to said first point flows;
acquiring a first corrected gradient exclusive of a voltage drop due to the second polarization resistance component and a second corrected gradient exclusive of a voltage drop due to the first polarization resistance component, said first corrected gradient being acquired by correcting a first gradient of a first line connecting the second point and the first assumed point is corrected by a difference between the voltage drops due to the second polarization resistance component, which are produced by the second discharging current and the discharging current at the first assumed point, and said second corrected gradient being acquired by correcting a second gradient of a second line connecting the first point and the second assumed point by a difference between the voltage drops due to the first polarization resistance component, which are produced by the first discharging current and the discharging current at the second assumed point; and
acquiring an average gradient of said first corrected gradient and said second corrected gradient by averaging a sum of them so that the average gradient is measured as the pure resistance of the battery.
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Abstract
In an apparatus for measuring a pure resistance of an in-vehicle battery, a terminal voltage and a discharging current of the battery are measured when the discharging current flows from the battery. A first approximate equation of a voltage-current characteristic curve is acquired for an increasing discharging current, and a second approximate equation is the voltage-current characteristic curve is acquired for a decreasing discharging current. Two points providing equal synthesized resistances each composed of the pure resistance and polarization resistance component are set on the voltage-current characteristic curves represented by the first and the second approximate equations, respectively. The gradients between the two points in each of the voltage-current characteristic curves are corrected to provide two corrected gradients each exclusive of a voltage drop due to the polarization resistance component. The two corrected gradients are averaged to provide an average value which is measured as a pure resistance of the battery.
4 Citations
10 Claims
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1. A method for measuring a pure resistance of an in-vehicle battery which supplies electric power to a load of the vehicle comprising the steps of:
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periodically measuring a terminal voltage and a discharging current of the in-vehicle battery when the discharging current, which increases monotonously to exceed a prescribed value and decreases monotonously from the maximum value to the prescribed value or lower, flows, thereby acquiring a first approximate equation of a voltage-current characteristic curve, indicative of correlation between the terminal voltage and the discharging current, for an increasing discharging current and a second approximate equation of the voltage-current characteristic for a decreasing discharging current;
setting a first point on the voltage-current characteristic curve represented by said first approximate equation and a second point on the voltage-current characteristic curve represent by said second approximate equation;
assuming a first assumed point and a second assumed point on the voltage-current curves represented by the first approximate equation and the second approximate equation, the first assumed point providing the same resistance as a second synthesized resistance composed of a pure resistance of the battery and a second polarization resistance component, which produces a second voltage drop when a second discharging current corresponding to said second point flows, and the second assumed point providing the same resistance as a first synthesized resistance composed of the pure resistance of the battery and a first polarization resistance component, which produces a first voltage drop when a first discharging current corresponding to said first point flows;
acquiring a first corrected gradient exclusive of a voltage drop due to the second polarization resistance component and a second corrected gradient exclusive of a voltage drop due to the first polarization resistance component, said first corrected gradient being acquired by correcting a first gradient of a first line connecting the second point and the first assumed point is corrected by a difference between the voltage drops due to the second polarization resistance component, which are produced by the second discharging current and the discharging current at the first assumed point, and said second corrected gradient being acquired by correcting a second gradient of a second line connecting the first point and the second assumed point by a difference between the voltage drops due to the first polarization resistance component, which are produced by the first discharging current and the discharging current at the second assumed point; and
acquiring an average gradient of said first corrected gradient and said second corrected gradient by averaging a sum of them so that the average gradient is measured as the pure resistance of the battery. - View Dependent Claims (2, 3, 4, 5, 8)
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6. An apparatus for measuring a pure resistance of an in-vehicle battery which supplies electric power to a load of the vehicle comprising:
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means for periodically measuring a terminal voltage and a discharging current of the battery when the discharging current, which increases monotonously to exceed a prescribed value and decreases monotonously from the maximum value to the prescribed value or lower, flows;
means for acquiring a first approximate equation of a voltage-current characteristic curve, indicative of correlation between the terminal voltage and the discharging current, for the increasing discharging current and a second approximate equation of the voltage-current characteristic for the decreasing discharging current; and
means for setting a first point on the voltage-current characteristic curve represented by said first approximate equation and a second point on the voltage-current characteristic curve represent by said second approximate equation, assuming a first assumed point and a second assumed point on the voltage-current curves represented by the first approximate equation and the second approximate equation, the first assumed point providing the same resistance as a second synthesized resistance composed of a pure resistance of the battery and a second polarization resistance component, which produces a second voltage drop when a second discharging current corresponding to said second point flows, and the second assumed point providing the same resistance as a first synthesized resistance composed of the pure resistance of the battery and a first polarization resistance component, which produces a first voltage drop when a first discharging current corresponding to said first point flows, acquiring a first corrected gradient exclusive of a voltage drop due to the second polarization resistance component and a second corrected gradient exclusive of a voltage drop due to the first polarization resistance component, said first corrected gradient being acquired by correcting a first gradient of a first line connecting the second point and the first assumed point is corrected by a difference between the voltage drops due to the second polarization resistance component, which are produced by the second discharging current and the discharging current at the first assumed point, and said second corrected gradient being acquired by correcting a second gradient of a second line connecting the first point and the second assumed point by a difference between the voltage drops due to the first polarization resistance component, which are produced by the first discharging current and the discharging current at the second assumed point, and acquiring an average gradient of said first corrected gradient and said second corrected gradient by averaging a sum of them so that the average gradient is measured as the pure resistance of the battery. - View Dependent Claims (7, 9, 10)
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Specification