Differential protection method, device and system for monitoring a line of an electrical energy supply network

The invention claimed is: 1. A differential protection method for monitoring a line of an electrical energy supply network, which comprises the steps of: generating current signals at ends of the line using inductive current transformers, the current signals being proportional to a current flowing at a respective end of said ends; forming, for each said respective end, current measurement values from a respective current signal using measuring devices, the current measurement values indicating a profile of the current flowing at the respective end; with at least one evaluation device, determining for each said respective end, a respective charge value from the current measurement values; with the at least one evaluation device, summing charge values of all the ends with a correct mathematical sign so as to form a charge sum; with the at least one evaluation device, generating a fault signal that indicates an internal fault on the line when the charge sum exceeds a charge threshold value; with the at least one evaluation device, identifying an estimated charge value using a corresponding measuring device when transformer saturation of a current transformer is present; and with the at least one evaluation device, using the estimated charge value to form the charge sum; wherein the at least one evaluation device is selected from the group consisting of a signal processor and a central processing unit. 2. The method according to claim 1 , which further comprises, with the at least one evaluation device, forming a temporal integral over the current measurement values of the respective end of the line during a prescribed time interval to form the respective charge value. 3. The method according to claim 1 , which further comprises, with the at least one evaluation device, identifying the estimated charge value using at least one current measurement value present at an onset time of the transformer saturation. 4. The method according to claim 3 , which further comprises: with the at least one evaluation device, determining a straight line that passes through the current measurement value at the onset time of the transformer saturation and through a last zero crossing of the current profile to ascertain the estimated charge value; and with the at least one evaluation device, determining the estimated charge value as an area lying within a time interval between the straight line and a zero line. 5. The method according to claim 4 , which further comprises: with the at least one evaluation device, forming a rectangle to ascertain the estimated charge value, a first side of the rectangle is determined by the current measurement value at the onset time of the transformer saturation and a second side of the rectangle is determined by a duration of the time interval; and with the at least one evaluation device, determining the estimated charge value as an area of the rectangle. 6. The method according to claim 3 , which further comprises: a difference value between a present current measurement value and a predicted value is determined, with the at least one evaluation device, to identify the onset time of the transformer saturation, wherein the predicted value indicates an expected profile of the current; and the onset time is identified when the difference value exceeds a saturation threshold value. 7. The method according to claim 1 , which further comprises, with the at least one evaluation device, temporarily increasing the charge threshold value when the transformer saturation is present. 8. A differential protective device for monitoring a line of an electrical energy supply network, the differential protective device comprising: a measuring device configured to detect a current signal generated at an end of the line and to form current measurement values indicating a profile of a current flowing at a respective end, the current signal having been produced proportionally to the current flowing at the respective end using an inductive current transformer; and an evaluation device configured to determine a charge value from the current measurement values, to sum charge values with a charge measurement value of at least one other differential protective device with a correct mathematical sign so as to form a charge sum and to generate a fault signal that indicates an internal fault on the line when the charge sum exceeds a charge threshold value, said evaluation device is configured, when transformer saturation of the inductive current transformer is present, to ascertain an estimated charge value and to use the estimated charge value to form the charge sum; wherein said evaluation device is selected from the group consisting of a signal processor and a central processing unit.