Wind turbines and methods

The invention claimed is: 1. A wind turbine, comprising: a generator; one or more power converters arranged between the generator and a point of connection to a main transformer, the main transformer configured for connecting a bus bar that receives electrical power from an electrical grid having a main voltage to an auxiliary wind turbine transformer; one or more of wind turbine electrical components configured for connecting to the auxiliary wind turbine transformer; and wherein a selection of the wind turbine electrical components are configured for connecting to the bus bar through a service voltage transformer when the main transformer is disconnected from the busbar. 2. The wind turbine according to claim 1 , wherein a first set of the wind turbine electrical components are connectable to the main transformer through the auxiliary wind turbine transformer. 3. The wind turbine according to claim 2 , wherein a second set of the wind turbine electrical components are connectable to the bus bar through the service voltage transformer. 4. The wind turbine according to claim 3 , wherein the second set of the wind turbine electrical components are connectable to the bus bar through both of the auxiliary wind turbine transformer and the service voltage transformer. 5. The wind turbine according to claim 4 , wherein a third set of the wind turbine electrical components are connectable to the bus bar through the service voltage transformer. 6. The wind turbine according to claim 5 , wherein the third set of the wind turbine electrical components includes a pre-charge circuit to pre-charge a DC-bus of the power converters. 7. The wind turbine according to claim 3 , wherein the wind turbine electrical components are divided into two or more different levels, wherein a first level is defined for wind turbine electrical components requiring permanent operability and includes the second set of wind turbine electrical components. 8. The wind turbine according to claim 5 , wherein the wind turbine electrical components are divided into two or more different levels, wherein: a first level is defined for wind turbine electrical components requiring permanent operability and includes the second set of wind turbine electrical components; a second level is defined for wind turbine electrical components that only require operability when the main transformer is disconnected from the busbar and includes the third set of wind turbine electrical components; and a third level is defined for wind turbine electrical components that do not require operability when the main transformer is disconnected from the busbar and includes the first set of wind turbine electrical components. 9. A system comprising: an electrical grid with a main voltage; a bus bar, the electrical grid providing electrical power to the bus bar; a main transformer; an auxiliary wind turbine transformer, the main transformer configured to connect the bus bar to the auxiliary wind turbine transformer; a service voltage transformer; a wind turbine, the wind turbine further comprising: a generator; one or more power converters arranged between the generator and a point of connection to the main transformer, one or more of wind turbine electrical components configured for connecting to the auxiliary wind turbine transformer; and wherein a selection of the wind turbine electrical components are configured for connecting to the bus bar through the service voltage transformer when the main transformer is disconnected from the bus bar. 10. The system according to claim 9 , further comprising a circuit breaker disposed to disconnect the main transformer to the bus bar. 11. The system according to claim 9 , wherein the service voltage transformer forms part of the wind turbine. 12. The system according to claim 9 , wherein: the main transformer comprises a primary winding and a secondary winding, wherein the primary winding is configured to receive electrical power from the bus bar and the secondary winding is configured to deliver electrical power to the power converters; and the auxiliary wind turbine transformer comprises a primary winding configured to receive electrical power from the main transformer and a secondary winding configured to deliver electrical power to a first set of electrical components. 13. The system according to claim 12 , wherein the service voltage transformer comprises a primary winding configured to receive electrical power from the busbar and a secondary winding configured to deliver electrical power to a second set of electrical components. 14. The system according to claim 9 , further comprising an uninterruptable power supply configured to selectively receive electrical power from the auxiliary transformer or from the service voltage transformer. 15. The system according to claim 9 , further comprising a switch or a fuse for disconnecting the service voltage transformer from the grid. 16. The system according to claim 13 , wherein the second set of wind turbine electrical components is configured to be alternatively connected to the service voltage transformer or to the auxiliary wind turbine transformer using a switch. 17. A method for connecting a disconnected wind turbine main transformer to a grid, the method comprising: connecting the grid to a primary winding of a service voltage transformer via a bus bar to supply power to a pre-charge circuit; pre-energizing a secondary winding of the main transformer with the pre-charge circuit while a primary winding of the transformer is disconnected from the grid; and connecting the primary winding of the main transformer to the grid when the primary winding of the transformer is substantially in phase with the grid. 18. The method according to claim 17 , wherein the pre-energizing the secondary winding of the transformer comprises ramping a voltage of the secondary winding of the transformer until a predefined value is reached. 19. A wind turbine, comprising: a generator; one or more power converters arranged between the generator and a point of connection to a main transformer, wherein the main transformer is configured to connect a bus bar to the converters, wherein the bulbar is configured to receive electrical power from an electrical grid with a main voltage; a pre-charge circuit configured to be connected to the bus bar through a service voltage transformer when the main transformer is disconnected from the bus bar; and wherein the pre-charge circuit is configured to apply electrical power to a DC bus of the converter such that a secondary winding of the main transformer is pre-charged and a primary winding of the transformer is substantially in phase with the grid. 20. A system comprising: a busbar; an electrical grid for providing electrical power having a main voltage to the busbar; the wind turbine according to claim 19 ; a main transformer for connecting the wind turbine to the bus bar; and a service voltage transformer for connecting the bus bar to the pre-charge circuit when the main transformer is disconnected from the bus bar.