Automated manual transmission with dynamic torque transfer device

The invention claimed is: 1. A transmission system for a vehicle, the transmission system comprising: an input operable to receive torque from a power source; a final output operable to transmit torque to a final drive; a clutch interconnecting the input and the final output, wherein the clutch is moveable between an engaged position connecting the input and the final output in torque communication therebetween, and a disengaged position disconnecting torque communication between the input and the final output; a dual planetary torque transfer device interconnecting the input and the final output, and disposed in a parallel relationship with the clutch between the input and the final output, wherein the dual planetary torque transfer device transfers torque between the input and the final output when the clutch is disposed in the disengaged positions; a speed control mechanism interconnecting the dual planetary torque transfer device and the final output; wherein the speed control mechanism includes one of a gear train, a planetary gear train, or a continuously variable transmission; wherein the speed control mechanism includes a gear train having a first gear combination and a second gear combination; and wherein the speed control mechanism is moveable between the first gear combination and the second gear combination to control a rotational speed of the dual planetary torque transfer device relative to a rotational speed of the final output. 2. A transmission system as set forth in claim 1 wherein the dual planetary torque transfer device includes a first planetary gear train and a second planetary gear train coupled together to transmit torque between the input and the final output. 3. A transmission system as set forth in claim 2 wherein the first planetary gear train includes one of a simple planetary gear train or a compound planetary gear train, and the second planetary gear train includes one of a simple planetary gear train or a compound planetary gear train. 4. A transmission system as set forth in claim 3 wherein the first planetary gear train includes a first sun gear, a first ring gear, and at least one first planet gear supported by a first carrier, and wherein the second planetary gear train includes a second sun gear, a second ring gear, and at least one second planet gear supported by a second carrier. 5. A transmission system as set forth in claim 4 wherein the first ring gear of the first planetary gear train and the second ring gear of the second planetary gear train are connected for rotation together. 6. A transmission system as set forth in claim 5 wherein the first sun gear of the first planetary gear train and the second sun gear of the second planetary gear train are connected for rotation together. 7. A transmission system as set forth in claim 6 wherein the first carrier of the first planetary gear train is connected to the input. 8. A transmission system as set forth in claim 7 wherein the second carrier of the second planetary gear train is connected to the final output. 9. A transmission system as set forth in claim 8 wherein the first ring gear of the first planetary gear train and the first sun gear of the first planetary gear train cooperate to define a first gear ratio of the first planetary gear train, wherein the second ring gear of the second planetary gear train and the second sun gear of the second planetary gear train cooperate to define a second gear ratio of the second planetary gear train, and wherein the first gear ratio is different than the second gear ratio. 10. A transmission system as set forth in claim 1 further comprising a multi-speed gear train interconnecting the clutch and the final output. 11. A transmission system as set forth in claim 10 wherein the multi-speed gear train is an automated manual gear train. 12. A transmission system as set forth in claim 10 wherein the final output is an output of the multi-speed gear train, such that the dual planetary torque transfer device is coupled to the output of the multi-speed gear train. 13. A powertrain for a vehicle, the powertrain comprising: a power source operable to generate a torque; an input coupled to the power source and operable to receive torque from the power source; an automated manual gear train coupled to the input and including a final output operable to transmit torque to a final drive; a clutch interconnecting the input and the automated manual gear train, wherein the clutch is moveable between an engaged position connecting the input and the automated manual gear train in torque communication therebetween, and a disengaged position disconnecting torque communication between the input and the automated manual gear train; a dual planetary torque transfer device interconnecting the input and the final output of the automated manual gear train, and disposed in a parallel relationship with the clutch between the input and the final output, wherein the dual planetary torque transfer device transfers torque between the input and the final output when the clutch is disposed in the disengaged position disengaging the automated manual gear train from the input; wherein the dual planetary torque transfer device includes a first planetary gear train and a second planetary gear train coupled together to transmit torque between the input and the final output, wherein the first planetary gear train includes one of a simple planetary gear train or a compound planetary gear train, and the second planetary gear train includes one of a simple planetary gear train or a compound planetary gear train; wherein the first planetary gear train includes a first sun gear, a first ring gear, and at least one first planet gear supported by a first carrier; and wherein the second planetary gear train includes a second sun gear, a second ring gear, and at least on second planet gear supported by a second carrier. 14. A powertrain as set forth in claim 13 wherein: the first ring gear and the second ring gear are connected for rotation together; the first sun gear and the second sun gear are connected for rotation together; the first carrier is connected to the input; the second carrier is connected to the final output; the first ring gear and the first sun gear cooperate to define a first ring/sun gear ratio of the first planetary gear train, the second ring gear and the second sun gear cooperate to define a second ring/sun gear ratio of the second planetary gear train, and the first ring/sun gear ratio is different than the second ring/sun gear ratio; and a speed control mechanism interconnecting the dual planetary torque transfer device and the final output to control a rotational speed of the dual planetary torque transfer device.