Battery module for a motor vehicle, and motor vehicle

The invention claimed is: 1. A battery module ( 5 ) for a motor vehicle, the battery module comprising: at least one battery unit ( 2 ), a negative pole ( 21 ), a positive pole ( 22 ), a switching unit ( 60 ), which is connected electrically in series with the at least one battery unit ( 2 ) and has at least one controllable switching element ( 61 , 62 ), and a management system ( 30 ) for controlling the at least one switching element ( 61 , 62 ), a hold circuit ( 40 ) connected to the management system ( 30 ) and to the switching unit ( 60 ) so that a control signal from the management system ( 30 ) can be transferred through the hold circuit ( 40 ) to the switching unit ( 60 ), the hold circuit including an activation input ( 44 ), the hold circuit ( 4 ) configured so that, in an active state of the hold circuit ( 40 ), a first control signal from the management system ( 30 ) to open the at least one switching element ( 61 , 62 ) is transferred to the switching unit ( 60 ) with a time delay and so that, in a passive state of the hold circuit ( 40 ), a second control signal from the management system ( 30 ) to open the at least one switching element ( 61 , 62 ) is transferred to the switching unit ( 60 ) without a delay, wherein the hold circuit ( 40 ) is brought into the active state by applying an activation signal to the activation input ( 44 ) and is brought into a passive state by applying a passivation signal to the activation input ( 44 ). 2. The battery module ( 5 ) according to claim 1 , wherein the hold circuit ( 40 ) is configured so that a control signal from the management system ( 30 ) to close the at least one switching element ( 61 , 62 ) is transferred to the switching unit ( 60 ) without a delay. 3. The battery module ( 5 ) according to claim 1 , wherein the hold circuit ( 40 ) comprises a control input ( 41 ), which is connected to the management system ( 30 ), and to which is transferred a control signal from the management system ( 30 ), and a control output ( 42 ), which is connected to the switching unit ( 60 ), and from which a control signal is transferred to the switching unit ( 60 ), wherein the control input ( 41 ) and the control output ( 42 ) are connected to one another by means of a diode ( 43 ). 4. The battery module ( 5 ) according to claim 1 , wherein the switching unit ( 60 ) comprises a first switching element ( 61 ), which is embodied as a MOSFET, and which comprises a first switching path ( 71 ) and a first body diode ( 73 ), which is connected in parallel with the first switching path ( 71 ), and a second switching element ( 62 ), which is likewise embodied as a MOSFET, and which comprises a second switching path ( 72 ) and a second body diode ( 74 ), which is connected in parallel with the second switching path ( 72 ), wherein the switching elements ( 61 , 62 ) are connected electrically in series between a first connection point ( 65 ) and a second connection point ( 66 ) so that the body diodes ( 73 , 74 ) of the switching elements ( 61 , 62 ) are connected electrically in anti-series. 5. The battery module ( 5 ) according to claim 4 , wherein the two switching elements ( 61 , 62 ) are configured to be controlled independently of one another. 6. The battery module ( 5 ) according to either claim 4 , wherein the switching elements ( 61 , 62 ) are connected so that the first body diode ( 73 ) allows a current flow through the switching unit ( 60 ) for charging the at least one battery unit ( 2 ), and so that the second body diode ( 74 ) allows a current flow through the switching unit ( 60 ) for discharging the at least one battery unit ( 2 ). 7. The battery module ( 5 ) according to claim 4 , wherein the management system ( 30 ), the switching unit ( 60 ) and the hold circuit ( 30 ) are interconnected so that in the active state of the hold circuit ( 40 ), a control signal from the management system ( 30 ) to open the first switching element ( 61 ) can be transferred to the switching unit ( 60 ) with a time delay, and a control signal from the management system ( 30 ) to open the second switching element ( 62 ) can be transferred to the switching unit ( 60 ) without a delay. 8. A motor vehicle comprising at least one battery module ( 5 ) according to claim 1 .