Systems and methods for detecting turn-to-turn faults in windings

That which is claimed is: 1. A system comprising: a transformer; a first current monitoring element configured to provide a first current measurement based on monitoring a primary winding current of the transformer; a second current monitoring element configured to provide a second current measurement based on monitoring a secondary winding current of the transformer; and a fault detector configured to receive each of the first current measurement and the second current measurement and to detect using the first current measurement and the second current measurement, a turn-to-turn fault in the transformer by executing a procedure comprising: determining a steady-state differential current value; determining a steady-state voltage value; determining one or more compensating factors by dividing the steady-state differential current value by the steady-state voltage value; determining a magnetizing current amplitude indicator by multiplying the steady-state voltage value by the one or more compensating factors; determining a compensated differential current value by combining the steady-state differential current value with a modifier value, the modifier value incorporating the magnetizing current amplitude indicator; comparing the compensated differential current value against a threshold value; declaring an occurrence of the turn-to-turn fault in the transformer when the compensated differential current value exceeds the threshold value; and executing a remedial operation comprising at least one of transmitting an alarm or operating a protection relay. 2. The system of claim 1 , wherein the modifier value is equal to the magnetizing current amplitude indicator. 3. The system of claim 2 , wherein combining the steady-state differential current value with the modifier value comprises subtracting the modifier value from the steady-state differential current value. 4. The system of claim 3 , wherein an amplitude of the magnetizing current amplitude indicator is directly proportional to an amplitude of an operating voltage of the transformer. 5. The system of claim 4 , wherein the occurrence of the turn-to-turn fault in the transformer is declared when the compensated differential current value exceeds the threshold value for a predetermined period of time. 6. The system of claim 5 , further comprising a user interface configured to accept a user input indicative of the predetermined period of time. 7. The system of claim 1 , wherein the transformer is a multi-phase transformer and each of the primary winding current and the secondary winding current corresponds to a first pair of windings among a plurality of windings of the multi-phase transformer. 8. The system of claim 7 , wherein the fault detector detects the turn-to-turn fault when present in any one of the plurality of windings of the multi-phase transformer. 9. The system of claim 1 , wherein the transformer is a three-phase transformer having at least two sets of windings and the fault detector executes the procedure for each phase of the three-phase transformer. 10. A system comprising: a multi-phase transformer; an electrical current monitoring system configured to provide a set of primary electrical current measurements based on monitoring each of a plurality of primary winding currents of the multi-phase transformer and a set of secondary electrical current measurements based on monitoring each of a plurality of secondary winding currents of the multi-phase transformer; and a fault detector configured to receive the set of primary electrical current measurements and the set of secondary electrical current measurements and to detect using the set of primary electrical current measurements and the set of secondary electrical current measurements, a turn-to-turn fault in the multi-phase transformer by executing a procedure comprising: determining a steady-state differential current value for each phase of the multi-phase transformer; determining a steady-state differential voltage value for each phase of the multi-phase transformer; determining one or more compensating factors by dividing the steady-state differential current value by the steady-state voltage value for each phase of the multi-phase transformer; determining a magnetizing current amplitude indicator for each phase of the multi-phase transformer by multiplying a respective steady-state voltage value by one or more compensating factors; determining a compensated differential current value for each phase of the multi-phase transformer by combining a respective steady-state differential current value with a respective modifier value, each respective modifier value incorporating a respective magnetizing current amplitude indicator; comparing the compensated differential current value for each phase of the multi-phase transformer against a threshold value for each phase of the multi-phase transformer; declaring an occurrence of the turn-to-turn fault in the transformer when at least one of the compensated differential current values exceeds the threshold value; and executing a remedial operation comprising at least one of transmitting an alarm or operating a protection relay. 11. The system of claim 10 , wherein the respective modifier value is equal to the respective magnetizing current amplitude indicator. 12. The system of claim 11 , wherein combining the respective steady-state differential current value with the respective modifier value comprises subtracting the respective modifier value from the respective steady-state differential current value. 13. The system of claim 12 , wherein an amplitude of the respective magnetizing current amplitude indicator is directly proportional to an amplitude of a respective phase operating voltage of the transformer. 14. The system of claim 13 , wherein the occurrence of the turn-to-turn fault in the transformer is declared when the at least one of the compensated differential current values exceeds the threshold value for a predetermined period of time. 15. The system of claim 14 , further comprising a user interface configured to accept a user input indicative of the predetermined period of time. 16. The system of claim 10 , wherein the transformer is a three-phase transformer. 17. The system of claim 16 , wherein the fault detector detects the turn-to-turn fault when present in any one of the plurality of windings of the three-phase transformer. 18. A method comprising: receiving in a fault detector, a first current measurement based on monitoring a primary winding current of a transformer; receiving in the fault detector, a second current measurement based on monitoring a secondary winding current of a transformer; using the first current measurement and the second current measurement to determine a steady-state differential current value and a steady-state voltage value; determining one or more compensating factors by dividing the steady-state differential current value by the steady-state voltage value; determining a magnetizing current amplitude indicator by multiplying the steady-state voltage value by the one or more compensating factors; determining a compensated differential current value by combining the steady-state differential current value with a modifier value, the modifier value incorporating the magnetizing current amplitude indicator; comparing the compensated differential current value against a threshold value; declaring an occurrence of the turn-to-turn fault in the transformer when the compensated differential current value exceeds the threshol