Protection system and method for an electrical variable speed doubly fed induction machine

The invention claimed is: 1. A protection system for both stator and rotor of an electrical variable speed doubly fed induction machine, comprising: instrument transformers capable of measuring low frequency signals from the rotor and stator in the range of 0.1 Hz to 6 Hz; a protection relay against damaging rotor and stator faults caused during the induction machine start-up, braking and normal running, said protection relay being configured to receive measurement values from the instrument transformers and to sample said measurements values at a constant sampling rate, said protection relay comprising at least one protection module configured to implement a protection algorithm making use of the measurement values sampled at the constant sampling rate, or making use of root mean square values each calculated for a series of the measurement values sampled at the constant sampling rate within a variable window. 2. The protection system of claim 1 , wherein the instrument transformers comprise a first set of current transformers for measuring rotor currents, a second set of current transformers for measuring stator currents, and a first set of voltage transformers for measuring rotor voltages. 3. The protection system of claim 2 , wherein the instrument transformers further comprise a second set of redundant voltage transformers for measuring rotor voltages. 4. The protection system of claim 1 , wherein the protection relay is connected to the instrument transformers by means of a merging unit which receives and samples the measurement values from the instrument transformers, the sampled measurement values being transmitted to the protection relay which re-samples the measurement values at said constant sampling rate. 5. The protection system of claim 4 , wherein the protection relay comprises an IEC 61850-9-2 LE compliant interface module to communicate with the merging unit. 6. The protection system of claim 1 , wherein the at least one protection module comprises a stator overcurrent protection module and/or a rotor overcurrent protection module and/or a rotor overvoltage protection module and/or a rotor overfrequency protection module. 7. The protection system of claim 1 , wherein the at least one protection module comprises a stator negative phase sequence overcurrent protection module making use of said root mean square values and/or a rotor neutral voltage protection module making use of said root mean square values. 8. The protection system of claim 7 , wherein the protection relay comprises a stator current transformer supervision module configured to block the stator negative phase sequence overcurrent protection module in case of failure of a current transformer associated to the stator. 9. The protection system of claim 7 , wherein the instrument transformers comprise a first set of current transformers for measuring rotor currents, a second set of current transformers for measuring stator currents, a first set of voltage transformers for measuring rotor voltages, and a second set of redundant voltage transformers for measuring rotor voltages, and wherein the protection relay comprises a voltage transformer supervision module configured to block the rotor neutral voltage protection module in case of failure of a voltage transformer associated to the rotor. 10. The protection relay of claim 1 , wherein the protection relay comprises a rotor overfrequency protection module. 11. The protection system of claim 1 , wherein a quality flag is associated with each sampled measurement value. 12. A method for protecting both stator and rotor of an electrical variable speed doubly fed induction machine, comprising, at a protection relay, receiving measurement values from instrument transformers capable of measuring low frequency signals from the rotor and stator in the range of 0.1 Hz to 6 Hz, sampling the measurement values at a constant sampling rate, and implementing at least one protection algorithm to provide protection against damaging rotor and stator faults caused during the induction machine start-up, braking and normal running, said at least one protection algorithm making use of the measurement values sampled at the constant sampling rate, or making use of root mean square values each calculated for a series of the measurement values sampled at the constant sampling rate within a variable window.