Differential protection method and differential protection device for performing a differential protection method

The invention claimed is: 1. A differential protection method for generating a fault signal, the method comprising the following steps: measuring respective current measurements at least at two different measuring points of a multiphase transformer for each phase; forming differential current values and stabilization values with the current measurements for each phase; using a zero system current flowing through a grounded star point of the transformer to form the stabilization values; and generating the fault signal if it is determined during a trigger region check that a pair of measurements, created by using one of the differential current values and a respectively associated stabilization value, of at least one of the phases lies in a predefined trigger region. 2. The differential protection method according to claim 1 , which further comprises using a maximum value from the current measurements formed at the respective measuring points and the zero system currents flowing on respective sides of the transformer. 3. The differential protection method according to claim 1 , which further comprises determining the zero system current by measuring a current flowing through the star point. 4. The differential protection method according to claim 1 , which further comprises determining the zero system current computationally from the current measurements acquired for the individual phases. 5. An electrical differential protection device for forming a fault signal, the device comprising: terminals for direct or indirect connection to at least two different measuring points of a multiphase transformer having a grounded star point through which a zero system current flows; and an evaluation device configured to form differential current values and stabilization values using current measurements acquired at the measuring points; said evaluation device configured to generate a fault signal if a pair of measurements, formed by using one of the differential current values and a respectively associated stabilization value, lies in a predefined trigger region; and said evaluation device configured to use the zero system current flowing through the star point to form the stabilization values. 6. The electrical differential protection device according to claim 5 , wherein said evaluation device is configured to determine a respective stabilization value by determining a maximum value from current measurements formed at the respective measuring points and zero system currents flowing on respective sides of the transformer. 7. The electrical differential protection device according to claim 5 , which further comprises: a terminal of the differential protection device for a direct or indirect connection to a current measuring point of the star point; said evaluation device configured to determine the zero system current by measurement of a current flowing through the star point. 8. The electrical differential protection device according to claim 5 , wherein said evaluation device is configured to determine the zero system current computationally from the current measurements acquired for individual phases.