Switchgear for a single-phase motor and a three-phase motor

The invention claimed is: 1. A switchgear for a single-phase motor and a three-phase motor, the switchgear comprising: a processing unit; and a first, second and third current path, the first and third current paths each comprising a current transformer, the processing unit being configured to detect, via the current transformers, the current I 1 of the first current path and the current I 3 of the third current path, detect the currents I 1 , I 3 of the first and third current paths and to ascertain a present operating mode of the switchgear via a phase shift between the detected currents I 1 , I 3 of the first and third current paths, repeatedly detect, simultaneously, the currents I 1 , I 3 of the first and third current paths within a time interval for ascertaining the present operating mode of the switchgear and either determine the first number of positively detected currents I 1 , I 3 of the first or third current paths and the second number of simultaneously positively detected currents I 1 , I 3 of the first and third current paths or determine the first number of negatively detected currents I 1 , I 3 of the first or third current paths and the second number of simultaneously negatively detected currents I 1 , I 3 of the first and third current paths and subsequently monitor whether the second number is greater than substantially 66% of the first number. 2. The switchgear of claim 1 , wherein the processing unit is configured to detect the currents I 1 , I 3 of the first and third current paths within a time interval for ascertaining the present operating mode of the switchgear, via the current transformers, determine values which characterize the phase shift between the detected currents I 1 , I 3 of the first and third current paths using the detected currents I 1 , I 3 of the first and third current paths, and evaluate the determined characterizing values, and wherein using the evaluation, the present operating mode of the switchgear is ascertained. 3. The switchgear of claim 2 , wherein only the first and third current paths comprise a current transformer. 4. The switchgear of claim 2 , wherein the processing unit is configured to calculate, in three-phase operation of the switchgear, calculate a value characterizing the current I 2 of the second current path for determining a phase failure of the phase which is conducted via the second current path, via simultaneously detected currents I 1 , I 3 of the first and third current paths, and determine whether the calculated value corresponds to a characteristic phase failure current. 5. The switchgear of claim 2 , wherein the processing unit is configured to, for determining a phase overload within a time interval in three-phase operation of the switchgear, at least one of compare whether detected currents I 1 , I 3 of the first or third current paths are continuously above a phase overload threshold value and whether a value calculated from the currents I 1 , I 3 of the first and third current paths, characterizing the current I 2 on the second current path, is continuously above the phase overload threshold value, and compare, in single-phase operation of the switchgear, whether detected currents I 1 , I 3 of at least one of the first and third current path is continuously above the phase overload threshold value. 6. The switchgear of claim 2 , wherein the processing unit is configured, for determining a phase unbalance in three-phase operation, compare whether one of the detected and calculated currents I 1 , and I 3 of the first and third current paths continuously deviates from the mean value of the effective values of the at least one of detected and calculated currents I 1 and I 3 . 7. The switchgear of claim 1 , wherein only the first and third current paths comprise a current transformer. 8. The switchgear of claim 7 , wherein the processing unit is configured to calculate, in three-phase operation of the switchgear, calculate a value characterizing the current I 2 of the second current path for determining a phase failure of the phase which is conducted via the second current path, via simultaneously detected currents I 1 , I 3 of the first and third current paths, and determine whether the calculated value corresponds to a characteristic phase failure current. 9. The switchgear of claim 1 , wherein the processing unit is configured to calculate, in three-phase operation of the switchgear, calculate a value characterizing the current I 2 of the second current path for determining a phase failure of the phase which is conducted via the second current path, via simultaneously detected currents I 1 , I 3 of the first and third current paths, and determine whether the calculated value corresponds to a characteristic phase failure current. 10. The switchgear of claim 9 , wherein the processing unit is configured, for determining a phase unbalance in three-phase operation, compare whether one of the detected and calculated currents I 1 , I 2 , I 3 of the first, second and third current paths continuously deviates from the mean value of the effective values of the at least one of detected and calculated currents I 1 , I 2 , I 3 . 11. The switchgear of claim 1 , wherein the processing unit is configured to, for determining a phase overload within a time interval in three-phase operation of the switchgear, at least one of compare whether detected currents I 1 , I 3 of the first or third current paths are continuously above a phase overload threshold value and whether a value calculated from the currents I 1 , I 3 of the first and third current paths, characterizing the current I 2 on the second current path, is continuously above the phase overload threshold value, and compare, in single-phase operation of the switchgear, whether detected currents I 1 , I 3 of at least one of the first and third current path is continuously above the phase overload threshold value. 12. The switchgear of claim 11 , wherein the processing unit is configured, for determining a phase unbalance in three-phase operation, compare whether one of the detected and calculated currents I 1 , I 2 , I 3 of the first, second and third current paths continuously deviates from the mean value of the effective values of the at least one of detected and calculated currents I 1 , I 2 , I 3 . 13. A method for ascertaining a present operating mode of a switchgear for a single-phase motor and a three-phase motor, the switchgear including a processing unit and a first, second and third current path, wherein the first and third current paths each include a current transformer, the processing unit being configured to detect, via the current transformers, the current I 1 of the first current path and the current I 3 of the third current path, wherein for ascertaining a present operating mode of the switchgear, the processing unit performs at least: repeatedly detecting simultaneously the currents I 1 , I 3 of the first and third current paths within a time interval; determining a first number of positively detected currents I 1 , I 3 of the first or third current path within the time interval; determining a second number of simultaneously positively detected currents I 1 , I 3 of the first and third current paths within the time interval, or determining the first number of negatively detected currents I 1 , I 3 of the first or third current path within the time interval and determining the second number of simultaneously negatively detected currents I 1 , I 3 of the first and third current paths within the time interval; and monitoring whether the determined second numb