Aircraft hybrid propulsion fan drive gear system DC motors and generators

What is claimed is: 1. An aircraft propulsion system comprising: a first gas turbine engine including a first input shaft driving a first gear system, a first fan driven by the first gear system through a first fan shaft, a first generator supported on the first input shaft and a first fan drive electric motor supported on the first fan shaft providing a drive input to the first fan, wherein the first fan shaft rotates at a speed different than the first input shaft; a second gas turbine engine including a second input shaft driving a second gear system, a second fan driven by the second gear system through a second fan shaft, a second generator supported on the second input shaft and a second fan drive electric motor supported on the second fan shaft providing a drive input to the second fan, wherein the second fan shaft rotates at a speed different than the second input shaft, each of the first generator and the second generator includes a first rotor, a first stator, a second rotor and a second stator, the first rotor is supported on the corresponding one of the first input shaft and the second input shaft and includes a first set of poles providing power to a first phase of a corresponding one of the first fan drive electric motor and the second fan drive electric motor and the second stator includes a second set of poles providing power to a second phase of the corresponding one of the first fan drive electric motor and the second fan drive electric motor, and wherein each of the first fan drive electric motor and the second fan drive electric motor includes a rotor supported on a corresponding one of the first fan shaft and the second fan shaft, the rotor is electrically coupled to the corresponding one of the first stator and the second stator and the first set of poles and the second set of poles are clocked relative to each other such that rotation of the corresponding one of the first input shaft and the second input shaft combined with the difference in relative speeds with a corresponding one of the first fan shaft and second fan shaft commutates the first phase and the second phase to drive the rotor for the corresponding one of the first fan drive electric motor and the second fan drive electric motor; and a controller controlling power output from each of the first generator and the second generator and directing the power output between each of the first fan drive electric motor and the second fan drive electric motor. 2. The aircraft propulsion system as recited in claim 1 , wherein the first gear system provides a main drive input to the first fan, the second gear system provides a main drive input to the second fan the first fan drive electric motor provides a supplemental drive input to the first fan and the second fan drive electric motor provides a supplemental drive input to the second fan. 3. The aircraft propulsion system as recited in claim 2 , wherein the controller is configured to balance power generated by both the first generator and the second generator between the first fan drive electric motor and the second fan drive electric motor responsive to an imbalance between the main drive input of one of the first gas turbine engine and the second gas turbine engine. 4. The aircraft propulsion system as recited in claim 3 , wherein the controller is configured to direct power generated by each of the first generator and the second generator independent of the other of the first generator and the second generators to one or both of the first fan drive electric motor and the second fan drive electric motor. 5. The aircraft propulsion system as recited in claim 1 , wherein the first fan drive electric motor and the second fan drive electric motor each include a permanent magnet rotor mounted to a fan shaft, the permanent magnet rotor including a plurality of poles corresponding with the first set of poles and the second set of poles of both the first generator and the second generator. 6. The aircraft propulsion system as recited in claim 5 , wherein the first gear system and second gear system are each configured to provide a gear ratio between an input speed of a corresponding one of the first input shaft and the second input shaft and an output speed of the corresponding fan shaft and commutation of the plurality of poles of the first fan drive electric motor and the second fan drive electric motor corresponds with the gear ratio and number of poles in each of the first set of poles and the second set of poles. 7. The aircraft propulsion system as recited in claim 1 , wherein for each of the first generator and the second generator, the first rotor is spaced axially apart from the second rotor on the corresponding one of the first input shaft and the second input shaft. 8. The aircraft propulsion system as recited in claim 6 , wherein each of the first generator and the second generator includes a third rotor including a third set of poles and a third stator and each of the first fan drive electric motor and the second fan drive electric motors includes poles corresponding to each of the first, second and third set of poles of each of the first generator and the second generator. 9. An aircraft propulsion system comprising at least two gas turbine engines each including, a fan driven by a fan shaft rotatable about an engine axis, a fan drive electric motor providing a supplemental drive input to the fan, a gear system driven by an input shaft and coupled to the fan shaft to provide a main drive input for driving the fan, and a generator means driven by the input shaft configured to generate electric power and for driving the fan drive electric motor, wherein the generator means includes a first stator and a first rotor including a first set of poles providing electric power to a first phase of the fan drive electric motor and a second stator and a second rotor including a second set of poles providing power to a second phase of the fan drive electric motor and wherein the first set of poles and the second set of poles are clocked relative to each other such that a difference in rotational speeds between the fan shaft and the input shaft commutates the first phase and the second phase to drive the fan drive electric motor; and a controller controlling power output from the generator means of each of the at least two gas turbine engines and directing power to at least one of the fan drive electric motor of the at least two gas turbine engines. 10. The aircraft propulsion system as recited in claim 9 , wherein the generator means includes a third stator and a third rotor including a third set of poles providing electric power to a third phase of the fan drive electric motor and the first set of poles, the second set of poles and the third set of poles are clocked relative to each other such that rotation of the input shaft commutates the first phase, the second phase and the third phase of the fan drive electric motor. 11. The aircraft propulsion system as recited in claim 9 , wherein the gear system is configured to provide a ratio between an input speed of the input shaft and an output speed of the fan shaft and commutation of the first set of poles and the second set of poles of the fan drive electric motor corresponds with the ratio and number of poles in each of the first set of poles and the second set of poles. 12. The aircraft propulsion system as recited in claim 9 , wherein the controller is configured to balance power generated by the generator means of each of the at least two gas turbine engines to distribute electric power between to the fan drive electric motor of each of the at least two gas turbine engines responsive to an imbalance between the main dri