Double fed induction generator (DFIG) converter and method for improved grid fault ridethrough

The following is claimed: 1. A method of operating a converter for a double fed induction generator (DFIG), the converter including a rotor side converter comprising a plurality of rotor side AC connections, a first damping circuit including a first damping resistor with a first terminal connected to a first rotor side AC connection of the rotor side converter and a second terminal connected to a first rotor lead of the DFIG, the first damping circuit including a first damping switching circuit connected in parallel with the first damping resistor, the first damping switching circuit including a first terminal connected to the first terminal of the first damping resistor and a second terminal connected to the second terminal of the first damping resistor, the converter further including a plurality of rotor side DC connections coupled with a DC circuit, and a grid side converter comprising a plurality of grid side DC connections coupled with the DC circuit and a plurality of grid side AC connections coupleable to stator leads of the DFIG, the method comprising: selectively activating the first damping circuit to conduct current through the first damping resistor between the first rotor lead and the first rotor side AC connection in response to a grid fault occurrence or a grid fault clearance; and selectively bypassing the first damping resistor to prevent current flow in the first damping resistor a time period after activating the damping circuit. 2. The method of claim 1 , further comprising monitoring at least one operating condition of the DFIG and adjusting the time period based at least partially on the at least one operating condition of the DFIG. 3. The method of claim 2 , wherein selectively activating the first damping circuit comprises conducting AC current through the first damping resistor in response to the grid fault occurrence or the grid fault clearance. 4. The method of claim 1 , comprising providing a control signal to activate the first damping circuit for a fixed time in response to the grid fault occurrence or in response to the grid fault clearance. 5. The method of claim 4 , wherein selectively activating the first damping circuit comprises conducting AC current through the first damping resistor in response to the grid fault occurrence or the grid fault clearance. 6. The method of claim 1 , wherein selectively activating the damping circuit comprises conducting AC current through the first damping resistor in response to the grid fault occurrence or the grid fault clearance. 7. The method of claim 6 , wherein the first damping circuit is bidirectional. 8. The method of claim 1 , wherein the first damping circuit is bidirectional. 9. A method of operating a converter for a double fed induction generator (DFIG), the converter including a rotor side converter comprising a plurality of rotor side AC connections and a plurality of rotor side DC connections coupled with a DC circuit including a DC bus capacitor connected to a first DC node, a first damping circuit including a first damping resistor with a first terminal connected to a first rotor side DC connection of the rotor side converter and a second terminal connected to the first DC node of the DC circuit, the first damping circuit including a first damping switching circuit connected in parallel with the first damping resistor, the first damping switching circuit including a first terminal connected to the first terminal of the first damping resistor and a second terminal connected to the second terminal of the first damping resistor, the converter further including a grid side converter comprising a plurality of grid side DC connections coupled with the DC circuit and a plurality of grid side AC connections coupleable to stator leads of the DFIG, the method comprising: selectively activating the first damping circuit to conduct current through the first damping resistor between the first DC node of the DC circuit and the first rotor side DC connection in response to a grid fault occurrence or a grid fault clearance; and selectively bypassing the first damping resistor to prevent current flow in the first damping resistor a time period after activating the damping circuit; wherein selectively activating the damping circuit comprises conducting DC current through the first damping resistor in response to the grid fault occurrence or the grid fault clearance. 10. The method of claim 9 , further comprising monitoring at least one operating condition of the DFIG and adjusting the time period based at least partially on the at least one operating condition of the DFIG. 11. The method of claim 9 , comprising providing a control signal to activate the first damping circuit for a fixed time in response to the grid fault occurrence or in response to the grid fault clearance. 12. The method of claim 9 , wherein the first damping circuit is bidirectional. 13. A non-transitory computer readable medium comprising computer executable instructions for operating a converter for a double fed induction generator (DFIG), the converter including a rotor side converter comprising a plurality of rotor side AC connections coupleable to rotor leads of the DFIG and a plurality of rotor side DC connections coupled with a DC circuit, and a grid side converter comprising a plurality of grid side DC connections coupled with the DC circuit and a plurality of grid side AC connections coupleable to stator leads of the DFIG, the converter including a rotor side converter comprising a plurality of rotor side AC connections, a first damping circuit including a first damping resistor with a first terminal connected to a first rotor side AC connection of the rotor side converter and a second terminal connected to a first rotor lead of the DFIG, the first damping circuit including a first damping switching circuit connected in parallel with the first damping resistor, the first damping switching circuit including a first terminal connected to the first terminal of the first damping resistor and a second terminal connected to the second terminal of the first damping resistor, the converter further including a plurality of rotor side DC connections coupled with a DC circuit, and a grid side converter comprising a plurality of grid side DC connections coupled with the DC circuit and a plurality of grid side AC connections coupleable to stator leads of the DFIG, the computer readable medium comprising computer executable instructions for: selectively activating the first damping circuit to conduct current through the first damping resistor between the first rotor lead and the first rotor side AC connection in response to a grid fault occurrence or a grid fault clearance; and selectively bypassing the first damping resistor to prevent current flow in the first damping resistor a time period after activating the damping circuit. 14. The non-transitory computer readable medium of claim 13 , further comprising computer executable instructions for monitoring at least one operating condition of the DFIG and adjusting the time period based at least partially on the at least one operating condition of the DFIG. 15. The non-transitory computer readable medium of claim 13 , further comprising computer executable instructions for providing a control signal to activate the first damping circuit for a fixed time in response to the grid fault occurrence or in response to the grid fault clearance. 16. The non-transitory computer readable medium of claim 15 , further comprising computer executable instructions for conducting AC current through the first damping resistor in response to the g