| CPC G01R 31/389 (2019.01) [G01R 31/3648 (2013.01); G01R 31/374 (2019.01); G01R 31/3842 (2019.01)] | 6 Claims |
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1. A battery state estimation apparatus, comprising:
an electrical information acquisition unit configured to acquire repeatedly a current value and a voltage value of a secondary battery by measurement;
a change amount calculation unit configured to calculate a current change amount and a voltage change amount of the secondary battery, respectively, using the current value and the voltage value acquired by the electrical information acquisition unit;
a resistance value calculation unit configured to calculate a measured DC resistance value of a DC resistance based on the current change amount and the voltage change amount calculated by the change amount calculation unit;
a temperature acquisition unit configured to acquire repeatedly a temperature of the secondary battery;
a constant calculation unit configured to perform a calculation of, as a calculated constant value, (i) a non-temperature dependent constant, which indicates a component of the DC resistance of the secondary battery independent of the temperature, and (ii) a constant of a temperature dependent function, which indicates a component of the DC resistance of the secondary battery dependent on the temperature,
based on (i) the measured DC resistance value calculated by the resistance value calculation unit, and (ii) an estimated DC resistance value being an estimated value of the measured DC resistance value,
the estimated DC resistance value being represented as a sum of (i) the non-temperature dependent constant, and (ii) the temperature dependent function,
wherein the constant calculation unit is configured to perform a plurality of the calculations of a plurality of the non-temperature dependent constants and a plurality of the constants of the temperature dependent functions at corresponding time points in a predetermined period up to a present time point; and
a convergence determination unit configured to determine whether or not the calculated constant value calculated by the constant calculation unit has converged based on a first condition and a second condition,
wherein the first condition is that
a total number of times of the calculations of the non-temperature dependent constants and the constants of the temperature dependent functions is equal to or greater than a predetermined number,
wherein the second condition is that
(i) a slope of an approximate straight line, which is obtained by a plot acquired from (a) the non-temperature dependent constants calculated at the corresponding time points up to the present time point in the predetermined period and (b) the corresponding time points up to the present time point, is equal to or less than a threshold value, and
(ii) a slope of an approximate straight line, which is obtained by a plot acquired from (a) the constants of the temperature dependent functions calculated at the corresponding time points up to the present time point in the predetermined period and (b) the corresponding time points up to the present time point, is equal to or less than a threshold value;
and wherein:
in response to the convergence determination unit determining that the calculated constant value has not converged, the constant calculation unit continues to perform the calculations of the plurality of the non-temperature dependent constants and the plurality of the constants of the temperature dependent functions while retaining logs of the calculated plurality of the non-temperature dependent constants and the calculated plurality of constants of the temperature dependent functions; and
in response to the convergence determination unit determining that the calculated constant value has converged, the constant calculation unit determines the non-temperature dependent constant and the constant of the temperature dependent function for use in the calculation of the estimated DC resistance value as the sum of (i) the non-temperature dependent constant and (ii) the temperature dependent function.
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