Method for determining the capacity of an electrical energy storage unit

The invention claimed is: 1. A method for determining the capacity of an electrical energy storage unit ( 2 ) within an electrical energy storage system ( 1 ) that includes a plurality of electrical energy storage units ( 2 ), a sensor, and at least one switch ( 3 ), which is designed to switch the electrical energy storage unit ( 2 ) whose capacity is being determined electrically out of a current flow path ( 5 ) of the electrical energy storage system ( 1 ) and/or to switch said electrical energy storage unit ( 2 ) electrically into the current flow path ( 5 ), wherein the sensor is configured to detect a voltage of the electrical energy storage unit ( 2 ), said method comprising the following steps: a) switching, by the switch ( 3 ), the electrical energy storage unit ( 2 ) out of the current flow path ( 5 ) of the electrical energy storage system ( 1 ); b) determining, by the sensor, a first voltage value of a terminal voltage of the electrical energy storage unit ( 2 ); c) switching, by the switch ( 3 ), the electrical energy storage unit ( 2 ) into the current flow path ( 5 ) of the electrical energy storage system ( 1 ); d) charging and/or discharging the electrical energy storage unit ( 2 ) with a predefined first quantity of charge and/or up to a predefined first state of charge and/or up to a predefined first voltage level; e) switching, by the switch ( 3 ), the electrical energy storage unit ( 2 ) out of the current flow path ( 5 ) of the electrical energy storage system ( 1 ) again f) determining, by the sensor, a second voltage value of the terminal voltage of the electrical energy storage unit ( 2 ); and g) determining, by an electronic control unit, the capacity of the electrical energy storage unit ( 2 ) in dependence on the first voltage value and the second voltage value. 2. The method as claimed in claim 1 , wherein the determination of the first voltage value in step b) takes place after a predefined first wait time and/or when a predefined first rate of change of the terminal voltage has been reached. 3. The method as claimed in claim 1 , wherein the determination of the second voltage value in step f) takes place after a predefined second wait time and/or when a predefined second rate of change of the terminal voltage has been reached. 4. The method as claimed in claim 1 , wherein steps a) to f) are performed repeatedly, and more than two voltage values of the terminal voltage are determined. 5. The method as claimed in claim 1 , wherein the determination of the capacity in step g) takes place by adaptation of a preset no-load voltage curve in dependence on the determined voltage values. 6. The method as claimed in claim 1 , wherein in each case the state of charge of the electrical energy storage unit ( 2 ) is determined from the determined voltage values. 7. A computer program, which is designed to implement all of the steps in the method as claimed in claim 1 . 8. A machine-readable storage medium on which the computer program as claimed in claim 7 is stored. 9. An apparatus ( 4 ) for determining the capacity of an electrical energy storage unit ( 2 ) within an electrical energy storage system ( 1 ) comprising a plurality of electrical energy storage units ( 2 ) and a sensor, wherein the electrical energy storage system ( 1 ) has at least one switch ( 3 ), which is designed to switch the electrical energy storage unit ( 2 ) whose capacity is being determined electrically out of a current flow path ( 5 ) of the electrical energy storage system ( 1 ) and/or to switch said electrical energy storage unit ( 2 ) electrically into the current flow path ( 5 ), wherein the sensor is configured to detect a voltage of the electrical energy storage unit ( 2 ), comprising electronic control unit configured to switch, using the switch ( 3 ), the electrical energy storage unit ( 2 ) out of the current flow path ( 5 ) of the electrical energy storage system ( 1 ); determine, using the sensor, a first voltage value of a terminal voltage of the electrical energy storage unit ( 2 ); switch, using the switch ( 3 ), the electrical energy storage unit ( 2 ) into the current flow path ( 5 ) of the electrical energy storage system ( 1 ); control charging and/or discharging of the electrical energy storage unit ( 2 ) with a predefined first quantity of charge and/or up to a predefined first state of charge and/or up to a predefined first voltage level; switch, using the switch ( 3 ), the electrical energy storage unit ( 2 ) out of the current flow path ( 5 ) of the electrical energy storage system ( 1 ) again; determine, using the sensor, a second voltage value of the terminal voltage of the electrical energy storage unit ( 2 ); and determine the capacity of the electrical energy storage unit ( 2 ) in dependence on the first voltage value and the second voltage value. 10. An electrical energy storage system ( 1 ) comprising: a plurality of electrical energy storage units ( 2 ); a sensor is configured to detect a voltage of each of the plurality of electrical energy storage units; at least one switch ( 3 ), which is configured to switch at least one electrical energy storage unit ( 2 ) whose capacity is being determined electrically out of a current flow path ( 5 ) of the electrical energy storage system ( 1 ) and/or to switch said at least one electrical energy storage unit ( 2 ) electrically into the current flow path ( 5 ); and electronic control unit configured to switch, using the switch, the electrical energy storage unit ( 2 ) out of the current flow path ( 5 ) of the electrical energy storage system ( 1 ) by means of the switching means ( 3 ); determine, using the sensor, a first voltage value of a terminal voltage of the electrical energy storage unit ( 2 ); switch, using the switch, the electrical energy storage unit ( 2 ) into the current flow path ( 5 ) of the electrical energy storage system ( 1 ); control charging and/or discharging of the electrical energy storage unit ( 2 ) with a predefined first quantity of charge and/or up to a predefined first state of charge and/or up to a predefined first voltage level; switch, using the switch, the electrical energy storage unit ( 2 ) out of the current flow path ( 5 ) of the electrical energy storage system ( 1 ) again; determine, using the sensor, a second voltage value of the terminal voltage of the electrical energy storage unit ( 2 ); and determine the capacity of the electrical energy storage unit ( 2 ) in dependence on the first voltage value and the second voltage value. 11. The method as claimed in claim 1 , wherein the determination of the first voltage value in step b) takes place after a predefined first wait time and/or when a predefined first rate of change of the terminal voltage has been reached, wherein the determination of the second voltage value in step f) takes place after a predefined second wait time and/or when a predefined second rate of change of the terminal voltage has been reached, wherein the determination of the capacity in step g) takes place by adaptation of a preset no-load voltage curve in dependence on the determined voltage values. 12. The method as claimed in claim 1 , wherein the sensor is connected to the electrical energy storage unit ( 2 ) and the sensor is configured to determine a voltage for the electrical energy storage unit ( 2 ). 13. The method as claimed in claim 1 , wherein the switch ( 3 ) is at least one selected from the group consisting of: a full bridge switch and a half bridge switch.