Hybrid propulsion drive train system for tiltrotor aircraft

What is claimed is: 1. A hybrid propulsion system for an aircraft, the hybrid propulsion system comprising: an engine disposed within a fuselage of the aircraft; two electrical generators disposed within the fuselage and connected to the engine; two nacelles, each nacelle comprising: a proprotor, and two electric motors connected to the proprotor, wherein each electrical generator is connected to the two electric motors in each nacelle; and a fan coupled to the fuselage and connected to two additional electric motors, each additional electric motor connected to one of the two electric generators. 2. The hybrid propulsion system of claim 1 , wherein each of the two nacelles is rotatable. 3. The hybrid propulsion system of claim 1 , wherein the engine is a turboshaft engine, high bypass engine or distributed engine. 4. The hybrid propulsion system of claim 1 , further comprising a reduction gearbox positioned between the engine and the two electrical generators. 5. The hybrid propulsion system of claim 1 , further comprising a proprotor reduction gearbox positioned between the two electrical motors and the proprotor of each nacelle. 6. The hybrid propulsion system of claim 1 , wherein the proprotors are driven directly by the two electrical motors. 7. The hybrid propulsion system of claim 1 , wherein the engine is not mechanically connected to the fan. 8. A method of providing propulsion to an aircraft, the method comprising: providing an engine disposed within a fuselage of the aircraft; providing two electrical generators disposed within the fuselage and connected to the engine; providing two nacelles, each nacelle comprising a proprotor, and two electric motors connected to the proprotor, wherein each electrical generator is connected to the two electric motors in each nacelle; providing a fan coupled to the fuselage and connected to two additional electric motors, each additional electric motor connected to one of the two electric generators; driving the two electrical generators with the engine; generating an electrical power from the two electrical generators; transmitting the electrical power to the electric motors in the nacelles; rotating the proprotors using the electrical motors in the nacelles; and rotating the fan using the additional electric motors. 9. The method of claim 8 , wherein each of the two nacelles is rotatable. 10. The method of claim 8 , wherein the engine is a turboshaft engine, high bypass engine or distributed engine. 11. The method of claim 8 , further comprising providing a reduction gearbox positioned between the engine and the two electrical generators. 12. The method of claim 8 , further comprising providing a proprotor reduction gearbox positioned between the two electrical motors and the proprotor of each nacelle. 13. The method of claim 8 , wherein the proprotors are driven directly by the two electrical motors. 14. The method of claim 8 , wherein the engine is not mechanically connected to the fan. 15. A tiltrotor craft comprising: a fuselage; two wings connected to the fuselage; an engine disposed within the fuselage; two electrical generators disposed within the fuselage and connected to the engine; two nacelles, each nacelle disposed on a respective wing and comprising: a proprotor, and two electric motors connected to the proprotor, wherein each electrical generator is connected to the two electric motors in each nacelle; and a fan coupled to the fuselage and connected to two additional electric motors, each additional electric motor connected to one of the two electric generators. 16. The tiltrotor craft of claim 15 , wherein each of the two nacelles is rotatable. 17. The tiltrotor craft of claim 15 , wherein the engine is a turboshaft engine, high bypass engine or distributed engine. 18. The tiltrotor craft of claim 15 , further comprising a reduction gearbox positioned between the engine and the two electrical generators. 19. The tiltrotor craft of claim 15 , further comprising a proprotor reduction gearbox positioned between the two electrical motors and the proprotor of each nacelle. 20. The tiltrotor craft of claim 15 , wherein the proprotors are driven directly by the two electrical motors. 21. The tiltrotor craft of claim 15 , wherein the engine is not mechanically connected to the fan.