Methods and devices for selective insulation monitoring in underground IT power supply systems

The invention claimed is: 1. A method for insulation monitoring of an ungrounded Isolé Terre (IT) power supply system having at least two phase conductors, said method comprising: determining an insulation resistance between each phase conductor and ground; pre-setting an independent response value for each determined insulation resistance; monitoring each phase conductor to determine if the associated currently determined insulation resistance has fallen below the corresponding pre-set response value; and generating a shutdown signal to shut down the IT power supply system when the associated currently determined insulation resistance of at least two phase conductors falls below the corresponding pre-set response value. 2. The method according to claim 1 , in which an alarm signal associated with the respective phase conductor is triggered if the currently determined insulation resistance falls below its associated pre-set independent response value. 3. The method according to claim 2 , in which the shutdown signal is generated by way of a logic operation of the alarm signals. 4. A method for insulation monitoring of an ungrounded Isolé Terre (IT) power supply system having at least two phase conductors, said method comprising: determining an insulation resistance between each phase conductor and ground; determining a system voltage between each phase conductor and ground; calculating a current and a voltage in each of the phase conductors and on at least one device connected thereto based on the determined insulation resistances and on the determined system voltages; comparing the determined currents and the determined voltages to a voltage and current predetermined to represent a dangerous state of the system; and generating a shutdown signal to shut down the IT power supply system if a dangerous state of the system is recognized. 5. The method according to claim 4 , in which the determined currents and the determined voltages are evaluated with evaluation algorithms to identify a dangerous state of the system. 6. A device for insulation monitoring of an ungrounded Isolé Terre (IT) power supply system having at least two phase conductors, said device comprising: a circuit implemented separately for each phase conductor and measuring an insulation resistance between the respective phase conductor and ground; and an evaluating device setting an independent response value for each determined insulation resistance, monitoring each insulation resistance for falling below the response value, and generating a shutdown signal for shutting down the IT power supply system if at least two independent response values have fallen below the preset response value. 7. The device according to claim 6 , in which the evaluating device has an alarm output for each phase conductor at which an alarm signal for identifying a fault corresponding to the insulation resistance falling below the respective response value is tapped. 8. The device according to claim 6 , in which the evaluating device has a basic logic circuit for a logic operation of the alarm signals. 9. A device for insulation monitoring of an ungrounded Isolé Terre (IT) power supply system having at least two phase conductors, said device comprising: a circuit implemented separately for each phase conductor and measuring an insulation resistance between the respective phase conductor and ground and measuring the system voltage between the respective phase conductor and ground; a calculating device calculating currents and voltages in the IT power supply system and on equipment connected thereto; and an evaluating unit to compare the calculated voltages and currents to voltages and currents corresponding to a pre-determined dangerous state of the system and that generates a shutdown signal to shut down the IT power supply system if the system is in a dangerous state.