Electrical protective arrangement for an electrical installation, and associated method

The invention claimed is: 1. An electrical protective arrangement for an electrical installation, the protective arrangement comprising: a fault current protection apparatus having a detection device for sensing a fault current and an evaluation device for comparing the sensed fault current with a threshold value and for outputting a tripping signal if the sensed fault current exceeds the threshold value; and a communication module configured to transmit fault current data with information pertaining to the sensed fault current and to receive operating data for setting an operating state of said evaluation device; wherein said communication module is connected to an external communication system that comprises a control room; and wherein in normal operation said fault current protection apparatus is supplied with electric power from the electrical installation and, in an event of a fault when an electrical connection is isolated, said fault current protection apparatus is supplied with electrical power that is sent from the communication system. 2. The electrical protective arrangement according to claim 1 , wherein said detection device is configured to sense a plurality of temporally successive measured values for the fault current and wherein the fault current data comprise the plurality of measured values. 3. The electrical protective arrangement according to claim 1 , wherein said fault current protection apparatus comprises an adjusting device for setting the operating state of the evaluation device on the basis of the operating data received thereby. 4. The electrical protective arrangement according to claim 3 , wherein the operating state to be set is one or both of the threshold value or a time delay after which the tripping signal is output. 5. The electrical protective arrangement according to claim 1 , which further comprises a tripping device for tripping a switching device, and wherein said communication module is configured to receive a control signal for tripping said tripping device. 6. The electrical protective arrangement according to claim 1 , wherein said communication module is configured to send state data that comprise a piece of information about a present operating state of said evaluation device. 7. The electrical protective arrangement according to claim 1 , further comprising a circuit breaker having an electrical sensing device for sensing an overcurrent and/or a short, said circuit breaker being disposed in a separate housing that has a plurality of accessory pockets, and said communication module being disposed in one of said plurality of accessory pockets. 8. The electrical protective arrangement according to claim 7 , wherein said fault current protection apparatus is connected to said electrical sensing device of said circuit breaker by way of a data cable, and said electrical sensing device is connected to said communication module. 9. A method of operating an electrical protective arrangement for an electrical installation, the method comprising: in normal operation, supplying a fault current protection apparatus with electric power from the electrical installation; in an event of a fault when an electrical connection is isolated, supplying the fault current protection apparatus with electrical power that is sent from an external communication system that includes a control room; sensing a fault current using a detection device of the fault current protection apparatus; transmitting with a communication module fault current data containing information pertaining to the sensed fault current, wherein the communication module is connected to the external communication system that includes the control room; receiving with the communication module operating data for setting an operating state of an evaluation device of the fault current protection apparatus; comparing the sensed fault current with a threshold value using the evaluation device; and outputting a tripping signal with the evaluation device if the sensed fault current exceeds the threshold value.