Power switch, battery system and method for operating a power switch

The invention claimed is: 1. A power switch ( 100 ) for a battery system ( 750 ), the power switch ( 100 ) comprising: a first terminal ( 104 ); a second terminal ( 106 ); a control terminal ( 102 ) configured to receive a control signal ( 108 ); a device ( 112 ) for defining a power switching signal ( 114 ) and a communication signal ( 116 ) using the control signal ( 108 ); a power section ( 118 ) with at least one first switch ( 122 ) for switching an electrical connection between the first terminal ( 104 ) and the second terminal ( 106 ) using the power switching signal ( 114 ); and a communication section ( 120 ) with at least one second switch ( 124 ) for switching the electrical connection between the first terminal ( 104 ) and the second terminal ( 106 ) based on the communication signal ( 116 ). 2. The power switch ( 100 ) as claimed in claim 1 , wherein the defining device ( 112 ) is configured to define the power switching signal ( 114 ) as a first signal component of the control signal ( 108 ) and the communication signal ( 116 ) as a second signal component of the control signal ( 108 ). 3. The power switch ( 100 ) as claimed in claim 1 , wherein the defining device ( 112 ) has a low-pass filter ( 430 ) and a high-pass filter ( 432 ) and is configured to filter the control signal ( 108 ) using the low-pass filter ( 430 ) in order to define the power switching signal ( 114 ) with low-frequency signal components of the control signal ( 108 ) and to filter the control signal ( 108 ) using the high-pass filter ( 432 ) in order to define the communication signal ( 116 ) with high-frequency signal components of the control signal ( 108 ). 4. The power switch ( 100 ) as claimed in claim 1 , wherein the power section ( 118 ) has a plurality of first switches ( 122 ) that are controlled using the power switching signal ( 114 ). 5. The power switch ( 100 ) as claimed in claim 1 , wherein the communication section ( 120 ) has a plurality of second switches ( 124 ) that are controlled using the communication signal ( 116 ). 6. The power switch ( 100 ) as claimed in claim 4 , wherein a number of the first switches ( 122 ) of the power section ( 118 ) is larger than a number of the second switches ( 124 ) of the communication section ( 120 ). 7. The power switch ( 100 ) as claimed in claim 1 , wherein the at least one first switch ( 122 ) of the power section ( 118 ) and the at least one second switch ( 124 ) of the communication section ( 120 ) are parallel-connected between the first terminal ( 104 ) and the second terminal ( 106 ). 8. The power switch ( 100 ) as claimed in claim 1 , wherein it is designed as a semiconductor component. 9. The power switch ( 100 ) as claimed in claim 1 , wherein it is designed the power switch ( 100 ) is configured to use the at least one first switch ( 122 ) and the at least one second switch ( 124 ) to switch an electric current of more than 100 amps between the first terminal ( 104 ) and the second terminal ( 106 ). 10. A battery system ( 750 ) with the following features: at least one battery cell ( 756 ); a power switch ( 100 ) as claimed in claim 1 , wherein the first terminal ( 104 ) of the power switch ( 100 ) is coupled to a connection contact of the at least one battery cell ( 765 ); and a control device ( 752 ) configured to deliver the control signal ( 108 ) to the control terminal ( 102 ) of the power switch ( 100 ). 11. A method for operating a power switch ( 100 ) for a battery system ( 750 ), wherein the power switch ( 100 ) has a first terminal ( 104 ), a second terminal ( 106 ), a control terminal ( 102 ), a power section ( 118 ) with at least one first switch ( 122 ) and a communication section ( 120 ) with at least one second switch ( 124 ), the method comprises: defining ( 602 ) a power switching signal ( 114 ) and a communication signal ( 116 ) using a control signal ( 108 ) present on the control terminal ( 102 ); using ( 604 ) the power switching signal ( 114 ) to switch an electrical connection between the first terminal ( 104 ) and the second terminal ( 106 ) using the at least one first switch ( 122 ) of the power section ( 118 ); and using ( 606 ) the communication signal ( 116 ) to switch the electrical connection between the first terminal ( 104 ) and the second terminal ( 106 ) using the at least one second switch ( 124 ) of the communication section ( 120 ). 12. A non-transitory computer readable medium including a program for carrying out all steps of the method as claimed in claim 11 .