Hybrid transmission

1 . A transmission for transferring mechanical power between an input member and an output member, comprising: a first synchronous electric machine including a first stator, a first distal rotor and a first proximal rotor; and a second synchronous electric machine including a second stator, a second distal rotor and a second proximal rotor; wherein the input member rotatably couples to the first distal rotor and to the second proximal rotor; wherein the output member rotatably couples to the second distal rotor and to the first proximal rotor; and wherein mechanical power is transferrable between the input member and the output member without torque being applied by the first stator. 2 . The transmission of claim 1 , wherein mechanical power output transferred to the output member is based upon a mechanical power input to the input member, a power input to the first electric machine through the first stator, and a power input to the second electric machine through the second stator. 3 . The transmission of claim 2 , wherein the power input to the first electric machine and the power input to the second electric machine comprise reactive torques. 4 . The transmission of claim 1 , wherein the first stator further comprises a stator core and an electrical coil, and wherein the stator core includes longitudinal ends including recessed portions into which end turns of the electrical coil are submerged. 5 . A transmission for transferring mechanical power between an input member and an output member, comprising: a multi-rotor electric machine including a first stator, a first distal rotor and a first proximal rotor; a second electric machine including a second stator and a second rotor; and a planetary gear set including a ring gear, a plurality of planet gears coupled to a carrier, and a ring gear; wherein the input member rotatably couples to the first distal rotor and rotatably couples to the carrier of the planetary gear; wherein the second rotor of the second electric machine rotatably couples to the sun gear; wherein the ring gear rotatably couples to the first proximal rotor of the first electric machine and rotatably couples to the output member; and wherein mechanical power is transferrable between the input member and the output member without torque being applied by the first stator. 6 . The transmission of claim 5 , wherein the ring gear rotatably couples via an output-split gearbox to the output member. 7 . The transmission of claim 6 , wherein the output-split gearbox further comprises: a first gear train rotatably coupling the second rotor of the second electric machine to the output member via activation of a first clutch, and a second gear train rotatably coupling the first proximal rotor of the first electric machine to the output member via activation of a second clutch. 8 . The transmission of claim 6 , further comprising: an input-split clutch arrangement including third clutch and a fourth clutch; wherein the input member rotatably couples to the first distal rotor and the second rotor when the fourth clutch is activated; and wherein the input member rotatably couples to the first proximal rotor when the third clutch is activated. 9 . A transmission for transferring mechanical power between an input member and an output member, comprising: a first multi-rotor electric machine including a first stator, a first distal synchronous rotor and a first proximal synchronous rotor; wherein the input member rotatably couples to one of the first distal synchronous rotor and the first proximal synchronous rotor and the output member rotatably couples to the other of the first distal synchronous rotor and the first proximal synchronous rotor; wherein mechanical power is transferrable between the input member and the output member using a torque applied by the first stator; and wherein mechanical power is transferrable between the input member and the output member without a torque being applied by the first stator. 10 . The transmission of claim 9 , further comprising: a second multi-rotor electric machine including a second stator, a second distal synchronous rotor and a second proximal synchronous rotor; wherein the input member rotatably couples with one of the second distal synchronous rotor and the second proximal synchronous rotor and the output member rotatably couples with the other of the second distal synchronous rotor and the second proximal synchronous rotor; and wherein mechanical power is transferrable between the input member and the output member using a reactive torque applied by the second stator. 11 . The transmission of claim 9 , further comprising: a planetary gear set comprising a sun gear member, a planet carrier member, and a ring gear member; a second electric machine with a second stator and a rotor coupled to a first member of the planetary gear set; wherein the input member is rotatably coupled with one of the second and third members of the planetary gear set and the output member is rotatably coupled with the other of the second and third members of the planetary gear set; and wherein mechanical power is transferrable between the input member and the output member using a torque applied by the second stator. 12 . The transmission of claim 9 , further comprising: a first clutch and a second clutch; wherein mechanical power is transferrable between the input member and the output member using the first clutch and the second clutch.