Method for determining the capacity of a battery cell

1 . A method for determining the capacity of a battery cell, wherein a battery cell current I is measured during a measurement time period and an open circuit voltage U OCV1 , U OCV2 of the battery cell is measured at the beginning and end of the measurement time period, the method comprising: a) determining a total battery cell current I tot from the measured battery cell current I, b) determining states of charge SOC 1 , SOC 2 at the beginning and at the end of the measurement time period on the basis of the measured open circuit voltage U OCV1 , U OCV2 , c) determining an estimated value of the capacity Q est on the basis of the total battery cell current I tot and a difference between the states of charge SOC 1 , SOC 2 , d) determining a total measurement error Δ   Q Q of the estimated value of the capacity Q est from measurement errors of the total battery cell current I tot and the states of charge SOC 1 , SOC 2 , e) determining a new value of the capacity Q new on the basis of a known value of the capacity Q act , the estimated value of the capacity Q est and the total measurement error Δ   Q Q , wherein the new value of the capacity Q new is in a monotonic relationship with the known value of the capacity Q act and the estimated value of the capacity Q est such that in the case of at least one first value of the total measurement error Δ   Q Q the new value of the capacity Q new is ascertained from the estimated value of the capacity Q est to a greater extent than in the case of at least one second value of the total measurement error Δ   Q Q which lies above the at least one first value, and in the case of the first value of the total measurement error Δ   Q Q the new value of the capacity Q new is ascertained from the known value of the capacity Q act to a lesser extent than in the case of the second value of the total measurement error Δ   Q Q . 2 . The method as claimed in claim 1 , characterized in that the new value of the capacity Q new below a first threshold value ( 29 ) of the total measurement error Δ   Q Q is ascertained using the estimated value of the capacity Q est . 3 . The method as claimed in claim 1 , characterized in that the new value of the capacity Q new above a second threshold value ( 31 ) of the total measurement error Δ   Q Q is ascertained by the known value of the capacity Q act . 4 . The method as claimed in claim 1 comprising the following further step: f) determining a weight factor W, wherein the weight factor W is in a monotonic relationship with the total measurement error Δ   Q Q , and wherein the new value of the capacity Q new is determined in step f) on the basis of the formula: Q new =Q act +W·Q est −W·Q act 5 . The method as claimed in claim 1 , characterized in that the total battery cell current I tot is determined in step a) by the integration of the measured battery cell current I over the measurement time period. 6 . The method as claimed in claim 1 , characterized in that the estimated value of the capacity Q est is determined in step c) on the basis of a quotient of the total battery cell current I tot and a difference between the states of charge SOC 1 , SOC 2 . 7 . The method as claimed in claim 1 , characterized in that the states of charge SOC 1 , SOC 2 at the beginning and end of the measurement time period are determined in step b) on the basis of a characteristic curve ( 34 ) of the behavior of the state of charge as a function of the measured open circuit voltage and the measurement errors ΔSOC 1 , ΔSOC 2 of the states of charge SOC 1 , SOC 2 are determined by the linearization of the characteristic curve ( 34 ) from errors of the measured open circuit voltage U OCV1 , U OCV2 . 8 . The method as claimed in claim 1 , characterized in that the measurement error of the states of charge SOC 1 , SOC 2 is determined on the basis of the formula: Δ   SOC =  ∂ SOC ∂ U OCV    Δ   U OCV . 9 . The method as claime