Method and circuit arrangement for determining the Coulombic efficiency of battery modules

The invention claimed is: 1. A method for determining a Coulombic efficiency of a plurality of battery modules of a rechargeable battery with a circuit arrangement connected to the plurality of battery modules, the circuit arrangement having a common current path, the common current path having a plurality of switching modules connected in series between two output terminals that provide an output voltage, each switching module having a first terminal and a second terminal and being connected to a respective battery module in the plurality of battery modules, each switching module being configured to (i) selectively connect the respective connected battery module into the common current path by connecting the respective connected battery module between the respective first and second terminals and (ii) selectively remove the respective connected battery module from the common current path by connecting the respective first and second terminals to each other, the circuit arrangement having an inverter connected between the two output terminals in parallel with the common current path and configured to provide power from the output terminals to an electric consumer, the method comprising: selecting at least one battery module of the plurality of battery modules; operating the plurality of switching modules to (i) connect the selected at least one battery module into the common current path by connecting the selected at least one battery module being between the respective first and second terminals of the respective switching module and (ii) remove each other battery module is subjecting, while the selected at least one battery module is connected in the common current path and each other battery module is removed from the common current path, the selected at least one battery module to at least one discharging process and at least one charging process via the common current path; operating at least one power semiconductor of the inverter in a linear mode to conduct and regulate a discharge current for the at least one discharging process; determining charge quantities by integrating a charge current over a duration of the at least one charging process and integrating the discharge current over a duration of the at least one discharging process; and determining a Coulombic efficiency of the selected at least one battery module based on the determined charge quantities. 2. The method as claimed in claim 1 , further comprising: operating at least one power semiconductor of one of the switching modules in a linear mode to regulate the charge current for the at least one charging process. 3. The method as claimed in claim 1 , wherein each of the switching modules has a half-bridge that includes two power semiconductor elements which act as semiconductor valves and two freewheeling diodes. 4. The method as claimed in claim 1 , wherein the inverter has a DC voltage intermediate circuit connected in parallel with the common current path. 5. The method as claimed in claim 4 , further comprising: discharging the selected at least one battery module via the electrical consumer connected to the inverter, a connectable load resistor of the circuit arrangement, or a short circuit in the inverter. 6. The method as claimed in claim 1 , further comprising: arranging a connectable load resistor in parallel with the common current path; and selectively connecting the connectable load resistor with a controllable switching device; and discharging the selected at least one battery module via the connectable load resistor. 7. The method as claimed in claim 1 , further comprising: charging the selected at least one battery module via a charger connected to the common current path. 8. The method as claimed in claim 1 , the determining of the Coulombic efficiency comprising: determining the Coulombic efficiency of the selected at least one battery module based on a ratio of the determined charge quantities.