Wind power plant controller

The invention claimed is: 1. A power plant controller for a wind power plant connected to an electrical grid, wherein the wind power plant comprises a plurality of wind turbine generators and at least one energy storage unit, the power plant controller comprising: one or more computer processors configured to: while the plurality of wind turbine generators provide at least reactive power to the electrical grid, receive a signal indicative of a requirement to charge the energy storage unit; determine that an amount of active power required to charge the energy storage unit is greater than an amount of active power generated by the plurality of wind turbine generators; impose one or more negative active power limits for a net active power provided from the wind power plant to the electrical grid, wherein the one or more negative active power limits comprises a first negative active power limit that permits the energy storage unit to be charged while the plurality of wind turbine generators continue to provide reactive power to the electrical grid; and charge the energy storage unit at least partly using power drawn from the electrical grid, wherein the net active power is a negative active power and is controlled according to the one or more negative active power limits. 2. The power plant controller of claim 1 , wherein controlling the net active power provided from the wind power plant comprises: controlling one or more electrical parameters selected from: an active power, a reactive power, a power factor, a voltage, and a current. 3. The power plant controller of claim 1 , wherein controlling the net active power provided from the wind power plant comprises: setting a reactive power reference to zero when the negative active power is less than the first negative active power limit of the one or more negative active power limits. 4. The power plant controller of claim 1 , wherein controlling the net active power provided from the wind power plant comprises: controlling a reactive power reference according to a power factor limit. 5. The power plant controller of claim 4 , wherein the power factor limit is inductive or capacitive. 6. The power plant controller of claim 1 , wherein at least one of the one or more negative active power limits is set according to a cost function of the active power. 7. The power plant controller of claim 1 , wherein at least one of the one or more negative active power limits is set according to losses in the wind power plant. 8. The power plant controller of claim 1 , wherein at least one of the one or more negative active power limits comprises one or both of: a hysteresis band; and a timer function. 9. A wind power plant connected to an electrical grid, the wind power plant comprising: a plurality of wind turbine generators; at least one energy storage unit; and a power plant controller configured to: while the plurality of wind turbine generators provide at least reactive power to the electrical grid, receive a signal indicative of a requirement to charge the energy storage unit; determine that an amount of active power required to charge the energy storage unit is greater than an amount of active power generated by the plurality of wind turbine generators; impose one or more negative active power limits for a net active power provided from the wind power plant to the electrical grid, wherein the one or more negative active power limits comprises a first negative active power limit that permits the energy storage unit to be charged while the plurality of wind turbine generators continue to provide reactive power to the electrical grid; and charge the energy storage unit at least partly using power drawn from the electrical grid, wherein the net active power is a negative active power and is controlled according to the one or more negative active power limits. 10. A method for controlling a wind power plant connected to an electrical grid, wherein the wind power plant comprises a plurality of wind turbine generators and at least one energy storage unit, the method comprising: while the plurality of wind turbine generators provide at least reactive power to the electrical grid, receiving a signal indicative of a requirement to charge the energy storage unit; determining that an amount of active power required to charge the energy storage unit is greater than an amount of active power generated by the plurality of wind turbine generators; imposing one or more negative active power limits for a net active power provided from the wind power plant to the electrical grid, wherein the one or more negative active power limits comprises a first negative active power limit that permits the energy storage unit to be charged while the plurality of wind turbine generators continue to provide reactive power to the electrical grid; and charging the energy storage unit at least partly using power drawn from the electrical grid, wherein the net active power is a negative active power and is controlled according to the one or more negative active power limits. 11. The method of claim 10 , wherein controlling the net active power provided from the wind power plant comprises: controlling one or more electrical parameters selected from: an active power, a reactive power, a power factor, a voltage, and a current. 12. The method of claim 10 , wherein controlling the net active power provided from the wind power plant comprises: setting a reactive power reference to zero when the negative active power is less than the first negative active power limit of the one or more negative active power limits. 13. The method of claim 10 , wherein controlling the net active power provided from the wind power plant comprises: controlling a reactive power reference according to a power factor limit. 14. The method of claim 10 , wherein at least one of the one or more negative active power limits is set according to a cost function of the active power. 15. The power plant controller of claim 1 , wherein the amount of active power generated by the plurality of wind turbine generators is zero.