Battery management system and method for determining the charge state battery cells, battery and motor vehicle comprising a battery management system

The invention claimed is: 1. A method for determining the states of charge of battery cells or battery modules of a battery using a plurality of cell monitoring units, the cell monitoring units each monitoring a plurality of the battery cells or at least one battery module, the method comprising: globally measuring a total current from the battery; transmitting the measurement of the total current and/or a trigger signal to the plurality of cell monitoring units; measuring an electrical voltage of each of the battery cells or battery modules with the respective cell monitoring units in response to the transmitted measurement of the total current or the trigger signal; and calculating a state of charge in each of the cell monitoring units for the respective monitored battery cells or the respective at least one battery module using the respective measured electrical voltages of the battery cells or battery modules and the measurement of the total current. 2. The method as claimed in claim 1 , wherein the trigger signal is sent to the cell monitoring units by a controller of a battery management system monitoring the battery via a separate trigger line, and wherein the trigger line is connected to the controller and to the cell monitoring units. 3. The method as claimed in claim 1 , wherein the states of charge are ascertained by the cell monitoring units in response to the transmitted current value and are returned to the controller. 4. The method as claimed in claim 1 , wherein the method is controlled by a low voltage side of the controller. 5. The method as claimed in claim 4 , wherein the low voltage side checks the battery current on a high voltage side of the controller. 6. The method as claimed in claim 1 , wherein the cell monitoring units are actuated via two separate communication lines. 7. The method as claimed in claim 1 , wherein the battery current is ascertained by a high-voltage-side microcontroller via a shunt. 8. A battery management system, comprising: a controller; at least one current sensor; and a plurality of cell monitoring units, wherein the battery management system is configured to carry out a method for determining the states of charge of battery cells or battery modules of a battery, the cell monitoring units each being configured to monitor a plurality of the battery cells or at least one battery module, the method including: globally measuring a total current from the battery; transmitting the measurement of the total current and/or a trigger signal to the plurality of cell monitoring units; measuring an electrical voltage of each of the battery cells or battery modules with the respective cell monitoring units in response to the transmitted measurement of the total current or the trigger signal; and calculating a state of charge in each of the cell monitoring units for the respective monitored battery cells or the respective at least one battery module using the respective measured electrical voltages of the battery cells or battery modules and the measurement of the total current. 9. The battery management system as claimed in claim 8 , wherein a battery includes the battery management system. 10. A motor vehicle, comprising: a battery management system including: a controller; at least one current sensor; and a plurality of cell monitoring units, wherein the battery management system is configured to carry out a method for determining the states of charge of battery cells or battery modules of a battery, the cell monitoring units each being configured to monitor a plurality of the battery cells or at least one battery module, the method including: globally measuring a total current from the battery; transmitting the measurement of the total current and/or a trigger signal to the plurality of cell monitoring units; measuring an electrical voltage of each of the battery cells or battery modules with the respective cell monitoring units in response to the transmitted measurement of the total current or the trigger signal; and calculating a state of charge in each of the cell monitoring units for the respective monitored battery cells or the respective at least one battery module using the respective measured electrical voltages of the battery cells or battery modules and the measurement of the total current, wherein the battery to be monitored is connected to a drivetrain in the motor vehicle.