Multi-mode integrated starter-generator device

What is claimed is: 1. A combination starter-generator device for a work vehicle having an engine, the starter-generator device comprising: an electric machine; and a gear set configured to receive rotational input from the electric machine and from the engine and to couple the electric machine and the engine in a first power flow direction and a second power flow direction, the gear set configured to operate in one of multiple high-torque, low-speed start gear ratios in the first power flow direction and a low-torque, high-speed gear ratio in the second power flow direction; wherein the multiple start gear ratios include a first start gear ratio greater than a second start gear ratio; and wherein the first start gear ratio corresponds to a cold engine start mode of the starter-generator device and the second start gear ratio corresponds to a warm engine start mode of the starter-generator device. 2. The starter-generator device of claim 1 , wherein the gear set is bi-directional in that, in the first power flow direction, the gear set receives input power from the electric machine in a first clock direction and outputs power to the engine in a second clock direction opposite the first clock direction; and wherein, in the second power flow direction, input power from the engine is in the second clock direction and output power to the electric machine is in the second clock direction. 3. The starter-generator device of claim 1 , further including a belt and pulley coupled to the gear set and the electric machine; wherein input power in the first power flow direction is conveyed from the electric machine to the gear set by the belt and pulley. 4. The starter-generator device of claim 3 , wherein in the first power flow direction the belt and pulley rotate in the first clock direction and in the second power flow direction the belt and pulley rotate in the second clock direction. 5. The starter-generator device of claim 4 , further including a single belt tensioner applying tension to a first side of the belt in both the first power direction and the second power flow direction. 6. The starter-generator device of claim 1 , further including at least one clutch assembly coupled to the gear set and configured to engage in the first power flow direction and to disengage in the second power flow direction. 7. The starter-generator device of claim 1 , wherein, in the first power flow direction, the multiple start gear ratios include a first start gear ratio and a second start gear ratio; wherein the starter-generator device further includes at least a first clutch assembly, a second clutch assembly, and a third clutch assembly; wherein the first clutch assembly is engaged during the first start gear ratio, disengaged during the second start gear ratio, and engaged in the second power flow direction; and wherein the second clutch assembly is disengaged during the first start gear ratio, engaged during the second start gear ratio, and engaged in the second power flow direction; and wherein the third clutch assembly is engaged during the first start gear ratio and the second start gear ratio and disengaged in second power flow direction. 8. The starter-generator device of claim 7 , wherein the first clutch assembly and the second clutch assembly are hydraulically actuated or released clutches; and wherein the third clutch assembly is a one-way mechanically-actuated clutch. 9. A combination starter-generator device for a work vehicle having an engine, the starter-generator device comprising: an electric machine; and a gear set configured to receive rotational input from the electric machine and from the engine and to couple the electric machine and the engine in a first power flow direction and a second power flow direction, the gear set configured to operate in one of multiple high-torque, low-speed start gear ratios in the first power flow direction and a low-torque, high-speed gear ratio in the second power flow direction; wherein the gear set includes a compound epicyclic gear train including first-stage and second-stage sun gears, first-stage and second-stage planet gears, first-stage and second-stage carriers, and a ring gear; and wherein the first-stage planet gears have a different tooth count than the second-stage planet gears. 10. The starter-generator device of claim 9 , wherein rotational power from the electric machine moves in the first power flow direction from the first-stage sun gear to the ring gear to the engine; and wherein rotational power from the engine moves in the second power flow direction from the ring gear to the first-stage sun gear to the electric machine. 11. The starter-generator device of claim 10 , further including first, second and third clutch assemblies coupled to the gear set and disposed between the engine and the electric machine; wherein, in the first power flow direction, the multiple start gear ratios include a first start gear ratio and a second start gear ratio; wherein the first clutch assembly is configured to engage during the first start gear ratio and in the second power flow direction to couple the first-stage sun gear to an input member coupled to the electric machine and to disengage during the second start gear ratio to uncouple the first-stage sun gear from the input member; and wherein the second clutch assembly is configured to disengage during the first start gear ratio to uncouple the second-stage sun gear from the input member and to engage during the second start gear ratio and in the second power flow direction to couple the second-stage sun gear to the input member; and wherein the third clutch assembly is configured to engage during the first start gear ratio and the second start gear ratio to couple the second-stage carrier to a housing of the gear set and to disengage in the second power flow direction to uncouple the second-stage carrier from the housing. 12. The starter-generator device of claim 11 , wherein the third clutch assembly is a one-way mechanically-actuated clutch. 13. A drivetrain assembly for a work vehicle, comprising: an engine; an electric machine; and a gear set configured to receive rotational input from the electric machine and from the engine and to couple the electric machine and the engine in a first power flow direction and a second power flow direction, the gear set configured to operate in one of multiple high-torque, low-speed start gear ratios in the first power flow direction and a low-torque, high-speed gear ratio in the second power flow direction; wherein the gear set includes a compound epicyclic gear train including first-stage and second-stage sun gears, first-stage and second-stage planet gears, first-stage and second-stage carriers, and a ring gear; wherein the first-stage planet gears have a different tooth count than the second-stage planet gears; and wherein rotational power from the electric machine moves in the first power flow direction from the first-stage sun gear to the ring gear to the engine, and rotational power from the engine moves in the second power flow direction from the ring gear to the first-stage sun gear to the electric machine. 14. The drivetrain of claim 13 , wherein the multiple start gear ratios include a first start gear ratio greater than a second start gear ratio; wherein the first start gear ratio corresponds to a cold engine start mode of the starter-generator device and the second start gear ratio corresponds to a warm engine start mode of the starter-generator device. 15. The drivetrain of claim 14 , wherein the gear set is bi-directional in that, in the fi