System and method for controlling DC link voltage of a power converter of an electrical power system

What is claimed is: 1. A method for controlling voltage of a DC link of a power converter of a wind turbine power system connected to a power grid, the method comprising: operating the DC link to an optimum voltage set point that achieves steady state operation of the power converter via a control module; monitoring a speed of the wind turbine power system; upon detection of one or more over-speed conditions occurring in the wind turbine power system, selecting, via a selector of the control module, a first maximum voltage set point for the DC link; upon detection of one or more under-speed conditions occurring in the wind turbine power system, selecting, via the selector of the control module, a second maximum voltage set point for the DC link, the first maximum voltage set point being higher than the second maximum voltage set point; increasing, via the control module, the optimum voltage set point to the selected first or second maximum voltage set point of the DC link; and, operating, via the control module, the DC link at the selected first or second maximum voltage set point until the one or more over-speed or under-speed conditions passes so as to optimize voltage control of the DC link. 2. The method of claim 1 , wherein the over-speed condition comprises speeds at about or exceeding cut-out wind speed and the under-speed condition comprises speeds at about or exceeding cut-in wind speed. 3. The method of claim 1 , wherein the wind turbine power system comprises a doubly-fed induction generator (DFIG). 4. An electrical power system connected to a power grid, the electrical power system comprising: a generator; a power converter coupled to the generator, the power converter configured to convert a frequency of generated electric power from the generator to a frequency substantially similar to a frequency of the power grid, the power converter comprising a rotor-side converter, a line-side converter, a DC link, and a control module comprising a selector, the control module configured to perform one or more operations, the one or more operations comprising: operating the DC link to an optimum voltage set point that achieves steady state operation of the power converter; monitoring a speed of the wind turbine power system; upon detection of one or more over-speed conditions occurring in the wind turbine power system, selecting, via the selector, a first maximum voltage set point for the DC link; upon detection of one or more under-speed conditions occurring in the wind turbine power system, selecting, via the selector, a second maximum voltage set point for the DC link, the first maximum voltage set point being higher than the second maximum voltage set point; increasing the optimum voltage set point to the selected first or second maximum voltage set point of the DC link; and, operating the DC link at the selected first or second maximum voltage set point until the one or more over-speed or under-speed conditions passes so as to optimize voltage control of the DC link. 5. The electrical power system of claim 4 , wherein the over-speed condition comprises speeds at about or exceeding cut-out wind speed and the under-speed condition comprises speeds at about or exceeding cut-in wind speed. 6. The electrical power system of claim 4 , further comprising limiting a time period that the DC link is allowed to operate at the first maximum voltage set point. 7. The electrical power system of claim 4 , wherein the generator comprises a doubly-fed induction generator (DFIG). 8. The electrical power system of claim 4 , wherein the electrical power system comprises a wind turbine power system.