Differential protection method, differential protection device and differential protection system

The invention claimed is: 1. A differential protection method for monitoring a line of a power grid, the method comprising: measuring current phasor values in each case with measuring devices at ends of the line, the current phasor values indicating an amplitude and a phase angle of a phase current flowing at a respective end of the line, the measuring devices having local timers and allocating a timestamp to the current phasor values indicating a time of a measurement thereof; transmitting at least the current phasor values measured at one end via a communication connection to an evaluation device; forming a differential current value through vectorial addition in the evaluation device with current phasor values from the end of the line temporally allocated to one another, using time delay information that is being calculated continuously indicating a time delay between the local timers of the measuring devices for the temporal allocation of the current phasor values measured at different ends of the line; generating a fault signal indicating a fault affecting the line when the differential current value exceeds a predefined threshold value; carrying out a check using measured electrical quantities temporally allocated to one another which have been measured at the different ends of the line and a line-specific parameter relating to the line running between the ends in order to determine whether the time delay information indicates an actual time delay between the respective local timers, wherein the measured electrical quantities are selected from the group consisting of: amplitudes of current phasor values temporally allocated to one another and voltage phasor values temporally allocated to one another; determining a comparative phase angle in order to check the time delay information using the measured electrical quantities and the line-specific parameter, wherein the comparative phase angle is determined by extending the measured electrical quantities temporally allocated to one another by an amount of the line specific parameter and using an angle between extended amplitudes as the comparative phase angle; using the comparative phase angle to check the time delay information; when erroneous time delay information is detected in the check, generating a time error signal; and in response to generating the time error signal, blocking the fault signal and thereby, preventing shutdown of the line. 2. The differential protection method according to claim 1 , which comprises: determining a time delay phase angle derived from the time delay information in order to check the time delay information; comparing the time delay phase angle with the comparative phase angle; and generating the time error signal if a deviation occurs between the time delay phase angle and the comparative phase angle. 3. The differential protection method according to claim 1 , which comprises: determining comparative time delay information derived from the comparative phase angle in order to check the time delay information; comparing the comparative time delay information with the time delay information; and generating the time error signal if a deviation occurs between the comparative time delay information and the time delay information. 4. The differential protection method according to claim 1 , which comprises: using the amplitudes of current phasor values temporally allocated to one another as the electrical measured quantities which have been measured at the different ends of the line; and using a charging current value indicating a charging current relating to the line running between the ends as the line-specific parameter. 5. The differential protection method according to claim 1 , which comprises: using the voltage phasor values temporally allocated to one another as the electrical measured quantities which have been measured at the different ends of the line; and using a line length and/or a propagation constant relating to the line running between the ends as the line-specific parameter. 6. The differential protection method according to claim 1 , which comprises: using products of current and voltage phasor values temporally allocated to one another as electrical measured quantities which have been measured at the different ends of the line; and using a line length and/or a propagation constant relating to the line running between the ends as the line-specific parameter. 7. The differential protection method according to claim 6 , which comprises: determining a time delay phase angle derived from the time delay information in order to check the time delay information; comparing the time delay phase angle with the comparative phase angle; and generating the time error signal if a deviation occurs between the time delay phase angle and the comparative phase angle. 8. The differential protection method according to claim 7 , which comprises generating the time error signal only if the deviation exceeds a predefined tolerance threshold value. 9. The differential protection method according to claim 6 , which comprises: determining comparative time delay information derived from the comparative phase angle in order to check the time delay information; comparing the comparative time delay information with the time delay information; and generating the time error signal if a deviation occurs between the comparative time delay information and the time delay information. 10. The differential protection method according to claim 9 , which comprises generating the time error signal only if the deviation exceeds a predefined tolerance threshold value. 11. The differential protection method according to claim 1 , which comprises blocking an emission of the fault signal if the time error signal is present. 12. The differential protection method according to claim 1 , which comprises increasing a value of the threshold value used to evaluate the differential current value if the time error signal is generated. 13. The differential protection method according to claim 1 , wherein the time delay information is determined by transmitting messages via the communication connection and using one half a value of a time duration of the transmission of a first message in one transmission direction and of a transmission of a second message in the other transmission direction to determine the time delay information. 14. The differential protection method according to claim 1 , which comprises, if the line has more than two ends, carrying out the check to determine whether the time delay information indicates the actual time delay between the respective local timers in each case for two given ends using the line-specific parameter relating to the line section between the two given ends. 15. A differential protection device for monitoring a line of a power grid, the device comprising: a measuring device having a local timer configured to measure current phasor values at one end of the line, the current phasor values indicating an amplitude and a phase angle of a phase current flowing at the one end of the line, and to allocate a timestamp to the current indicator measured values indicating a time of a measurement thereof; a communication device configured to exchange the current measured current phasor values via a communication connection with another differential protection device; and an evaluation device configured: to form a differential current value with locally measured current phasor values and current phasor values received from the other differential protection device that are temporally allocated to one anot