Hybrid powertrain and modular rear drive unit for same

The invention claimed is: 1. A powertrain for a vehicle having front wheels and rear wheels, the powertrain comprising: an engine with a crankshaft; a first motor-generator drivingly connected to the crankshaft via an endless rotatable device; a transmission having a transmission input member driven by the crankshaft and a transmission output member; a driveshaft operatively connected with the output member; a rear differential operatively connectable with the driveshaft and configured to transfer torque from the driveshaft to rear half shafts that are connectable to the rear wheels; wherein the rear differential includes a rotatable differential carrier; a second motor-generator drivingly connected to the rear differential and positioned at least partially rearward of the rear half shafts; wherein the second motor-generator has a motor shaft with an axis of rotation generally parallel with the driveshaft; a gearing arrangement configured to multiply torque from the second motor-generator to the rear half shafts; a controller operatively connected to the second motor-generator and operable to control the second motor-generator to function as a motor providing driving torque to the rear half shafts through the rear differential; a pinion shaft operatively connectable to the driveshaft; a bevel gear set having a first bevel gear fixed to the pinion shaft, and a second bevel gear fixed to the differential carrier and meshing with the first bevel gear; a cross shaft fixed to and extending forward from the motor shaft generally parallel with the driveshaft; wherein the gearing arrangement includes a first transfer gear fixed to the cross shaft, and a second transfer gear fixed to the pinion shaft and meshing with the first transfer gear; and wherein the gearing arrangement is configured to multiply torque from the cross shaft to the pinion shaft. 2. The powertrain of claim 1 , further comprising: a disconnect device operable to disconnect the driveshaft from the rear differential; wherein the second motor-generator is controllable to function as a motor when the disconnect device is disconnected to establish an electric-only rear-wheel drive operating mode. 3. The powertrain of claim 2 , wherein the disconnect device includes a selectable one-way clutch that is configured to overrun when the engine is off and the second motor-generator is propelling the vehicle in a forward direction, thereby disconnecting the driveshaft from the rear differential when the second motor-generator is controlled to function as a motor in the electric-only operating mode. 4. The powertrain of claim 1 , wherein the bevel gear set is configured to multiply torque from the pinion shaft to the differential carrier. 5. The powertrain of claim 1 , wherein the cross shaft is splined to the motor shaft; and the powertrain further comprising: a bearing positioned to carry reaction loads of the cross shaft. 6. The powertrain of claim 1 , further comprising: a front differential operatively connected with front half shafts that are connectable with the front wheels; a transfer case having another gearing arrangement configured to distribute torque of the transmission output member to the driveshaft; wherein the transfer case is controllable to vary torque distribution from the transmission output member to the front differential and to the driveshaft; and wherein the controller is configured to execute a stored algorithm that coordinates control of the second motor-generator and the transfer case to achieve a desired torque distribution between the front half shafts and the rear half shafts. 7. The powertrain of claim 1 , wherein the controller is configured to execute a stored algorithm that delays a scheduled upshift to a lowest numerical gear ratio of the transmission when a state-of-charge of a battery that powers the second motor-generator is below a predetermined level of charge. 8. The powertrain of claim 1 , wherein the controller is configured to execute a stored algorithm that controls the second motor-generator to function as a motor to add torque to the rear half shafts when the vehicle is in a predetermined lowest numerical gear ratio and vehicle operating conditions indicate that additional torque is required at the rear half shafts. 9. The powertrain of claim 1 , wherein the second motor-generator is one of a separately excited motor and a switchable element motor. 10. The powertrain of claim 1 , further comprising: a cradle supporting the second motor-generator and the rear differential relative to a body of the vehicle; wherein the cradle has a coolant passageway configured as a portion of a coolant circuit in thermal communication with oil that cools the rear differential and the second motor-generator, the cradle thereby functioning as a heat sink and convecting element. 11. The powertrain of claim 10 , wherein the controller is included in a motor control module that has power electronics with a power inverter; wherein the coolant circuit extends to the motor control module; and only a single pump in fluid communication with the coolant circuit and operable to circulate the coolant through the coolant circuit. 12. The powertrain of claim 1 , further comprising: a housing surrounding the rear differential and the second motor-generator; wherein the housing includes a lower sump and an upper sump positioned higher than the lower sump; and wherein the upper sump is positioned to collect lubrication oil thrown within the housing by rotation of the second bevel gear and drain the collected fluid over the second motor-generator to the lower sump. 13. The powertrain of claim 1 , wherein the second motor-generator has a rotor mounted on the motor shaft; and the powertrain further comprising: a housing surrounding the rear differential and the second motor-generator; wherein the housing includes a first housing portion surrounding the rear differential, a second housing portion secured to the first housing portion, and a third housing portion secured to the second housing portion; wherein the motor-generator is packaged in the second housing portion; a bearing supporting the motor shaft relative to the third housing portion; and an additional bearing supporting the motor shaft relative to the second housing portion and axially separated from the bearing by a distance greater than the axial width of the rotor.