System and method for controlling a negative sequence current in a wind turbine generator

What is claimed is: 1. A method for controlling an electrical power system connected to a power grid, the electrical power system having a power converter electrically coupled to a generator, the method comprising: determining, via a negative sequence regulator programmed in a controller of the electrical power system, a negative sequence component of at least one electrical condition of the electrical power system; determining a desired current response based on the negative sequence component of the at least one electrical condition of the electrical power system; and, estimating, via the negative sequence regulator, a negative sequence component of a voltage condition in the power grid as a function of the negative sequence component of the electrical condition of the electrical power system and a grid parameter; determining a predictor current as a function of the estimated negative sequence component of the voltage condition in the power grid and the desired current response by multiplying the estimated negative sequence component of the voltage condition and an uncompensated negative sequence admittance of the electrical power system, summing the multiplied value with the desired current response, filtering the summed value via a filter at a predetermined bandwidth, and limiting the filtered value; determining a current output based on the predictor current; determining a control command for the power converter as a function of the current output so as to achieve a desired relationship between the voltage condition in the power grid and the negative sequence component of the electrical condition of the electrical power system. 2. The method of claim 1 , wherein the control command comprises a modulation index command for the power converter. 3. The method of claim 1 , further comprising determining the desired current response as a function of a desired negative sequence admittance characteristic of the electrical power system. 4. The method of claim 1 , wherein determining the regulator current further comprises: applying a gain to an error signal representative of a difference between the desired current response and a measured current response; and, integrating, via an integrator in the negative sequence regulator, the error signal to obtain the regulator current. 5. The method of claim 1 , further comprising generating a compensation current based on the predictor current and a filtered compensator value. 6. The method of claim 1 , further comprising converting the current output to a voltage value and determining a modulation index command for the power converter as a function of the voltage value. 7. The method of claim 6 , further comprising dividing the voltage value by a DC link voltage from the power converter to obtain the modulation index command. 8. The method of claim 7 , further comprising limiting the modulation index command for the power converter such that the modulation index command maintains relative values of the signal and does not cause windup. 9. The method of claim 1 , wherein the at least one electrical condition of the electrical power system comprises at least one of a voltage or a current of a stator of the generator, a rotor of the generator, a line-side converter of the power converter, or a transformer of the electrical power system. 10. The method of claim 1 , wherein the generator comprises a doubly-fed asynchronous generator (DFAG). 11. The method of claim 1 , wherein the electrical power system is part of a wind turbine power system. 12. An electrical power system, comprising: a transformer connected to a power grid; a generator electrically coupled to the transformer, the generator comprising a rotor and a stator; a power converter electrically coupled to the transformer and the generator; and, a controller configured to control the electrical power system, the controller comprising a negative sequence regulator programmed therein, the negative sequence regulator configured to: determine a negative sequence component of at least one electrical condition of the electrical power system; estimate a negative sequence component of a voltage condition in the power grid as a function of the negative sequence component of the electrical condition of the generator and a grid parameter; determine a desired current response based on the negative sequence component of the voltage condition in the power grid; determine a predictor current as a function of the estimated negative sequence component of the voltage condition in the power grid and the desired current response by multiplying the estimated negative sequence component of the voltage condition and an uncompensated negative sequence admittance of the electrical power system, summing the multiplied value with the desired current response, filtering the summed value via a filter at a predetermined bandwidth, and limiting the filtered value; determine a current output based on the predictor current; and, determine a control command for the power converter as a function of the current output so as to achieve a desired relationship between the negative sequence component of the voltage condition in the power grid and the negative sequence component of the electrical condition of the electrical power system. 13. A method for reacting to a negative sequence voltage occurring in a power grid, the method comprising: determining, via a negative sequence regulator programmed in a controller of an electrical power system, a negative sequence component of at least one electrical condition of the electrical power system; estimating, via the negative sequence regulator, a negative sequence component of a voltage condition in the power grid as a function of the negative sequence component of the electrical condition of the generator and a grid parameter; determining a desired current response based on the negative sequence component of the voltage condition in the power grid; determining a predictor current by multiplying the estimated negative sequence component of the voltage condition and a desired negative sequence admittance characteristic of the electrical power system, summing the multiplied value with the desired current response, filtering the summed value via a filter at a predetermined bandwidth, and limiting the filtered value; determining a current output based on the predictor current; and, determining a modulation index command for the power converter as a function of the current output so as to achieve a desired relationship between the negative sequence component of the voltage condition in the power grid and the negative sequence component of the electrical condition of the electrical power system. 14. The method of claim 13 , wherein determining the regulator current further comprises: applying a gain to an error signal representative of a difference between the desired current response and a measured current response; and, integrating, via an integrator in the negative sequence regulator, the error signal to obtain the regulator current. 15. The method of claim 13 , further comprising: converting the current output to a voltage value; dividing the voltage value by a DC link voltage from the power converter to obtain the modulation index command; and limiting the modulation index command for the power converter such that the modulation index command maintains relative values of the signal does not cause windup.