Integrated hydraulic damper for torsional oscillation reduction

What is claimed is: 1. A rotor assembly of an electric machine, comprising: a rotor body; a shaft assembly disposed at a central axis of the rotor assembly, and operably connected to the rotor body, the shaft assembly including: a main rotor shaft operably connected to the rotor body; a center drive shaft disposed inside of the main rotor shaft; and a hydraulic damper sleeve disposed radially between the main rotor shaft and the center drive shaft, defining a plurality of cavities between the hydraulic damper sleeve and the center drive shaft, the hydraulic damper sleeve configured to urge a fluid into and out of the plurality of cavities thereby damping relative circumferential motion between the main rotor shaft and the center drive shaft. 2. The rotor assembly of claim 1 , wherein: the hydraulic damper sleeve includes one or more sleeve vanes extending radially inwardly to the center drive shaft; the center drive shaft includes one or more shaft vanes extending radially outwardly to the hydraulic damper sleeve; and the one or more sleeve vanes and the one or more shaft vanes at least partially define the plurality of cavities. 3. The rotor assembly of claim 2 , wherein the one or more shaft vanes are circumferentially offset from the one or more sleeve vanes. 4. The rotor assembly of claim 2 , further comprising a plurality of vent passages extending from the plurality of cavities through the center drive shaft and into a hollow interior of the center drive shaft. 5. The rotor assembly of claim 4 , wherein the fluid is urged into and out of the plurality of cavities via the plurality of vent passages. 6. The rotor assembly of claim 4 , wherein the plurality of vent passages are circumferentially located between adjacent shaft vanes and/or sleeve vanes. 7. The rotor assembly of claim 1 , wherein the hydraulic damper sleeve is secured to the main rotor shaft via a press fit. 8. The rotor assembly of claim 1 , wherein the fluid is oil. 9. The rotor assembly of claim 1 , wherein the center drive shaft is configured for connection to an input shaft for supplying rotational energy to the rotor assembly. 10. An electric machine, comprising: a housing; a stator disposed in the housing; and a rotor assembly disposed in the housing and defining an air gap to the stator, the rotor assembly including: a rotor body; a shaft assembly disposed at a central axis of the rotor assembly, and operably connected to the rotor body, the shaft assembly including: a main rotor shaft operably connected to the rotor body; a center drive shaft disposed inside of the main rotor shaft; and a hydraulic damper sleeve disposed radially between the main rotor shaft and the center drive shaft, defining a plurality of cavities between the hydraulic damper sleeve and the center drive shaft, the hydraulic damper sleeve configured to urge a fluid into and out of the plurality of cavities thereby damping relative circumferential motion between the main rotor shaft and the center drive shaft. 11. The electric machine of claim 10 , wherein: the hydraulic damper sleeve includes one or more sleeve vanes extending radially inwardly to the center drive shaft; the center drive shaft includes one or more shaft vanes extending radially outwardly to the hydraulic damper sleeve; and the one or more sleeve vanes and the one or more shaft vanes at least partially define the plurality of cavities. 12. The electric machine of claim 11 , wherein the one or more shaft vanes are circumferentially offset from the one or more sleeve vanes. 13. The electric machine of claim 11 , further comprising a plurality of vent passages extending from the plurality of cavities through the center drive shaft and into a hollow interior of the center drive shaft. 14. The electric machine of claim 13 , wherein the fluid is urged into and out of the plurality of cavities via the plurality of vent passages. 15. The electric machine of claim 13 , wherein the plurality of vent passages are circumferentially located between adjacent shaft vanes and/or sleeve vanes. 16. The electric machine of claim 10 , wherein the hydraulic damper sleeve is secured to the main rotor shaft via a press fit. 17. The electric machine of claim 10 , wherein the fluid is oil. 18. The electric machine of claim 10 , wherein the center drive shaft is configured for connection to an input shaft for supplying rotational energy to the rotor assembly. 19. The electric machine of claim 10 , wherein the electric machine is an electrical generator.