APPARATUS FOR BATTERY STATE ESTIMATION
First Claim
1. An apparatus for battery state estimation comprising:
- a charge/discharge current detection unit configured to detect a charge/discharge current value of a battery;
a terminal voltage detection unit configured to detect a terminal voltage value of the battery;
an equivalent circuit model including a fast response portion and a slow response portion of the battery;
a sequential parameter estimation unit configured to perform sequential parameter estimation, using only the fast response portion among response portions of the equivalent circuit model, based on the charge/discharge current value input from the charge/discharge current detection unit and the terminal voltage value input from the terminal voltage detection unit;
a constant setting unit configured to set a constant representing resistance and capacitance in the slow response portion of the equivalent circuit model;
a first multiplication unit configured to obtain an overvoltage value of the fast response portion by multiplying a parameter estimated by the sequential parameter estimation unit by the charge/discharge current value;
a second multiplication unit configured to obtain an overvoltage value of the slow response portion by multiplying the constant set by the constant setting unit by the charge/discharge current value; and
an addition unit configured to obtain an overvoltage value of the battery by adding the overvoltage value of the fast response portion obtained by the first multiplication unit and the overvoltage value of the slow response portion obtained by the second multiplication unit.
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Abstract
An apparatus for battery state estimation can accurately estimate the internal state of a battery by taking into consideration the slow response portion of the battery. The apparatus for battery state estimation includes a charge/discharge current detection unit, a terminal voltage detection unit, an equivalent circuit model including a fast response portion and slow response portion of the battery, a sequential parameter estimation unit that performs sequential parameter estimation, using only the fast response portion among response portions, based on the charge/discharge current value and the terminal voltage value, a constant setting unit that sets a constant representing resistance and capacitance in the slow response portion of the equivalent circuit model, a plurality of multiplication units that multiply the parameter estimated by the sequential parameter estimation unit and the constant by the charge/discharge current value, and an addition unit that obtains an overvoltage value of the battery by adding the multiplied values.
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Citations
6 Claims
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1. An apparatus for battery state estimation comprising:
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a charge/discharge current detection unit configured to detect a charge/discharge current value of a battery; a terminal voltage detection unit configured to detect a terminal voltage value of the battery; an equivalent circuit model including a fast response portion and a slow response portion of the battery; a sequential parameter estimation unit configured to perform sequential parameter estimation, using only the fast response portion among response portions of the equivalent circuit model, based on the charge/discharge current value input from the charge/discharge current detection unit and the terminal voltage value input from the terminal voltage detection unit; a constant setting unit configured to set a constant representing resistance and capacitance in the slow response portion of the equivalent circuit model; a first multiplication unit configured to obtain an overvoltage value of the fast response portion by multiplying a parameter estimated by the sequential parameter estimation unit by the charge/discharge current value; a second multiplication unit configured to obtain an overvoltage value of the slow response portion by multiplying the constant set by the constant setting unit by the charge/discharge current value; and an addition unit configured to obtain an overvoltage value of the battery by adding the overvoltage value of the fast response portion obtained by the first multiplication unit and the overvoltage value of the slow response portion obtained by the second multiplication unit. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification