High voltage battery system for a vehicle

What is claimed is: 1. A high voltage battery for a motor vehicle, the high voltage battery comprising: a housing; a plurality of cells accommodated in the housing and connected via high voltage lines and a high voltage interface to one or more devices arranged outside of the housing, the high voltage interface comprising common-mode interference dampers; a system configured to control and monitor the operating status of the cells, the system comprising: a central unit; a first battery module controller; and a second battery module controller; a first electrically conductive compartment within the housing and accommodating the central unit, the first battery module controller, and the second battery module controller; and a second electrically conductive compartment within the housing, the second electrically conductive compartment accommodating the high voltage interface, the high voltage lines extending through the second electrically conductive compartment, wherein each of the first and second battery module controllers is connected to the central unit via an optocoupler, and wherein the cells are outside of the first and second electrically conductive compartments. 2. The high voltage battery of claim 1 , further comprising a plurality of first capacitors, wherein ones of the first capacitors are connected in-line with ones of the high voltage lines of the high voltage interface and a ground of the high voltage battery. 3. The high voltage battery of claim 1 , further comprising a second capacitor connected between ones of the high voltage lines of the high voltage interface. 4. The high voltage battery of claim 1 , wherein the system further comprises a battery control unit. 5. The high voltage battery of claim 4 , wherein the battery control unit comprises: a plurality of sensors, ones of the sensors being arranged at ones of the cells from among the plurality of cells and configured to sense an operating state of the respective cell, wherein the first and second battery module controllers are connected via daisy chains to the sensors. 6. The high voltage battery of claim 1 , wherein the common-mode interference dampers comprise ferrite rings. 7. A high voltage battery system for a motor vehicle, the high voltage battery system comprising: a housing; a plurality of high voltage cells accommodated in the housing and connected via high voltage lines and a high voltage interface to an output, the high voltage interface comprising common-mode interference dampers; a battery control unit comprising: a plurality of first sensors, ones of the first sensors being arranged at ones of the cells from among the plurality of high voltage cells and configured to sense an operating state of the respective cell; a first battery module controller; a second battery module controller, the first and second battery module controllers being connected via daisy chains to the first sensors; and a central unit galvanically isolated and operatively connected to the first battery module controller and the second battery module controller; and a first electrically conductive sub-housing accommodating the central unit and the first and second battery control modules; and a second electrically conductive sub-housing within the housing, the high voltage interface being accommodated in the second electrically conductive sub-housing and the high voltage cells being outside of the second electrically conductive sub-housing, wherein each of the first and second battery module controllers is connected to the central unit via an optocoupler. 8. The high voltage battery system of claim 7 , further comprising a second sensor configured to sense the current of a cell from among the plurality of high voltage cells. 9. The high voltage battery system of claim 8 , wherein the second sensor comprises a shunt resistor which is connected to the second battery module controller via a screened and/or twisted line system. 10. The high voltage battery system of claim 8 , wherein the second sensor comprises a Hall sensor which is connected to the central unit via a screened and/or twisted line system. 11. A high voltage battery system for a motor vehicle, the high voltage battery system comprising: a housing; a plurality of high voltage cells accommodated in the housing and connected via high voltage lines and a high voltage interface to one or more devices arranged outside of the housing, the high voltage interface comprising common-mode interference dampers; a battery control unit configured to control and monitor the status of the cells, the battery control unit comprising: a central unit; a first battery module controller; and a second battery module controller; a first electrically conductive housing part accommodating the battery control unit; and a second electrically conductive housing part within the housing and accommodating the high voltage interface, wherein the high voltage lines extend through common-mode interference dampers to the one or more devices outside of the housing, wherein each of the first and second battery module controllers is connected to the central unit via an optocoupler, and wherein the high voltage cells are outside of the first and second electrically conductive housing parts. 12. The high voltage battery system of claim 11 , wherein the battery control unit further comprises: a sensor for each respective cell from among the plurality of high voltage cells, each sensor being configured to sense an operating state of the respective cell; and the central unit which is galvanically isolated and operatively connected to the first battery module controller and the second battery module controller. 13. The high voltage battery system of claim 12 , wherein the first and second battery module controllers are connected via daisy chains to the sensors. 14. The high voltage battery system of claim 7 , further comprising a second sensor configured to sense the current of the cells. 15. The high voltage battery system of claim 8 , wherein the second sensor comprises one of: a shunt resistor which is connected to the second battery module controller via a screened and/or twisted line system; or a Hall sensor which is connected to the central unit via a screened and/or twisted line system. 16. The high voltage battery of claim 4 , wherein a capacitor is connected between the housing and a ground of the battery control unit.