Driver for power distribution switch

The invention claimed is: 1. A circuit for controlling electrical power comprising: a circuit node operably connected to a pass element configured to be switched on and off in accordance with a drive signal applied at the circuit node; a communication interface configured to receive data from an external controller operably connected to the communication interface; and a control circuit comprising a non-volatile memory configured to store a first parameter set and a second parameter, wherein the control circuit is configured to: generate, in a first mode of operation, the drive signal dependent on parameters of the first parameter set and based on data received via the communication interface indicating switch-on and switch-off commands; and generate, in a second mode of operation, the drive signal dependent on parameters of the second parameter set while discarding data received via the communication interface indicating switch-on and switch-off commands, wherein the first parameter set and the second parameter set comprise one or more of an over-voltage-threshold, an under-voltage threshold, an over-current threshold, an over-temperature threshold, or a parameter representing a desired slew rate and wherein a first parameter of the first parameter set comprises a different value than a second parameter of the second parameter set that corresponds to the first parameter. 2. The circuit of claim 1 , wherein the control circuit is configured to change from the first mode of operation to the second mode of operation in response to at least one of the following: detecting a mode switch signal at a first input pin indicating a mode switch into the second mode of operation; or the communication interface detecting received data as being corrupted. 3. The circuit of claim 2 , wherein the control circuit is configured to change from the second mode of operation back to the first mode of operation in response to both: receiving data via the communication interface including a mode switch command; and detecting a mode switch signal at the first input pin of the circuit indicating a mode switch into the first mode of operation. 4. The circuit of claim 1 , further comprising: a timer configured to measure an amount of time the circuit operates in the second mode of operation. 5. The circuit of claim 4 , wherein the control circuit is configured to change from the second mode of operation to the third mode of operation in response to the timer indicating that a predefined time span has lapsed since entering the second mode of operation, and wherein the control circuit is further configured to generate the drive signal with a level suitable to switch the pass element into a non-conductive state when changing to the third mode of operation. 6. The circuit of claim 1 , wherein the control circuit is configured to change from the second mode of operation to a third mode of operation in response to receiving, from an external device, a further mode switch signal indicating a mode switch into the third mode of operation; and wherein the control circuit is further configured to generate the drive signal with a level suitable to switch the pass element off when changing to the third mode of operation. 7. The circuit of claim 6 , wherein the further mode switch signal is received at a second input pin of the circuit. 8. The circuit of claim 1 , wherein the control circuit includes a volatile memory including a currently used parameter set, and wherein the control circuit is configured to check whether the parameter set stored in the volatile memory is consistent with a corresponding parameter set stored in the non-volatile memory and to correct the parameter set stored in the volatile memory when an inconsistency is detected. 9. A circuit for controlling electrical power comprising: a circuit node operably connected to a pass element configured to be switched on and off in accordance with a drive signal applied at the circuit node; a communication interface configured to receive data from an external controller operably connected to the communication interface; a control circuit configured to: generate, in a first mode of operation, the drive signal dependent on parameters of a first parameter set and based on data received via the communication interface indicating switch-on and switch-off commands; and generate, in a second mode of operation, the drive signal dependent on parameters of a second parameter set while discarding data received via the communication interface indicating switch-on and switch-off commands, wherein the first parameter set and the second parameter set comprise one or more of an over-voltage-threshold, an under-voltage threshold, an over-current threshold, an over-temperature threshold, or a parameter representing a desired slew rate and wherein a first parameter of the first parameter set comprises a different value than a second parameter of the second parameter set that corresponds to the first parameter; and a watchdog circuit configured to surveil the external controller by requesting response from the external controller and receiving the requested response. 10. The circuit of claim 9 , wherein the control circuit is further configured to change from the first mode of operation to the second mode of operation in response to the watchdog circuit signaling that the external controller is non-responsive. 11. A circuit for controlling electrical power comprising: a circuit node operably connected to a pass element configured to be switched on and off in accordance with a drive signal applied at the circuit node; a communication interface configured to receive data from an external controller operably connected to the communication interface; and a control circuit configured to: generate, in a first mode of operation, the drive signal dependent on parameters of a first parameter set and based on data received via the communication interface indicating switch-on and switch-off commands; and generate, in a second mode of operation, the drive signal dependent on parameters of a second parameter set while discarding data received via the communication interface indicating switch-on and switch-off commands, wherein the first parameter set and the second parameter set comprise one or more of an over-voltage-threshold, an under-voltage threshold, an over-current threshold, an over-temperature threshold, or a parameter representing a desired slew rate and wherein a first parameter of the first parameter set comprises a different value than a second parameter of the second parameter set that corresponds to the first parameter; and communicate, via the communication interface to the external controller, a changeover to the second mode of operation. 12. A method comprising: receiving data, using a communication interface of a semiconductor device and from an external controller operably connected to the semiconductor device; generating, with a control circuit of the semiconductor device and in a first mode of operation, a drive signal for a pass element dependent on parameters of a first parameter set stored in non-volatile memory and based on data received via the communication interface indicating switch-on and switch-off commands; the pass element being included in or coupled to the semiconductor device; and generating, with the control circuit and in a second mode of operation, the drive signal dependent on parameters of a second parameter set stored in the non-volatile memory while discarding data received via the communication interface indicating switch-on and switch-off commands, wherein the first parameter set and the second parame