Modular power transfer unit assembly for a vehicle

The invention claimed is: 1. A power transfer unit assembly for transferring torque from a differential carrier of a front differential to a propeller shaft of a vehicle; wherein the differential carrier rotates about a first axis of rotation and the propeller shaft rotates about a second axis of rotation substantially perpendicular to the first axis of rotation, the power transfer unit assembly comprising: an input shaft configured to be rotatably driven by and rotatably fixed to the differential carrier to rotate at the same speed as the differential carrier about the first axis of rotation; a first bevel gear; a second bevel gear engaged with the first bevel gear; wherein the first bevel gear is annular and concentrically surrounds the input shaft; wherein the second bevel gear is configured to rotatably drive the propeller shaft about the second axis of rotation; and a compound planetary gear set concentric with the first axis of rotation and configured to transfer torque from the input shaft to the first bevel gear so that torque of the first bevel gear is less than torque of the input shaft and speed of the first bevel gear is greater than speed of the input shaft. 2. The power transfer assembly of claim 1 , further comprising: a stationary member adjacent to the compound planetary gear set; a disconnect clutch selectively operatively connecting the compound planetary gear set to the stationary member to enable torque transfer from the input shaft to the first bevel gear through the compound planetary gear set; and wherein the disconnect clutch is selectively disengageable to disconnect the compound planetary gear set from the stationary member, thereby preventing torque transfer from the input shaft to the first bevel gear through the compound planetary gear set. 3. The power transfer assembly of claim 1 , wherein the first bevel gear has an annular shaft portion concentrically surrounding the input shaft; and further comprising: a stationary member adjacent to the compound planetary gear set; wherein the compound planetary gear set includes: a first sun gear operatively connectable to the stationary member; a second sun gear fixed to the annular shaft portion of the first bevel gear to rotate in unison therewith; a carrier fixed to the input shaft to rotate in unison therewith; a first set of pinion gears and a second set of pinion gears both rotatably supported by the carrier; wherein the first set of pinion gears meshes with the first sun gear; and wherein the second set of pinion gears meshes with the first set of pinion gears and with the second sun gear. 4. The power transfer assembly of claim 3 , further comprising: a disconnect clutch selectively operatively connecting the first sun gear to the stationary member to enable torque transfer from the input shaft to the first bevel gear through the compound planetary gear set; and wherein the disconnect clutch is selectively disengageable to disconnect the first sun gear from the stationary member, thereby preventing torque transfer from the input shaft to the first bevel gear through the compound planetary gear set. 5. The power transfer assembly of claim 3 , wherein the first sun gear is splined to the stationary member. 6. The power transfer assembly of claim 3 , wherein the carrier is configured to be centered at a position dependent on a mesh of the first sun gear with the stationary member and a mesh of the second sun gear with the annular shaft portion. 7. The power transfer assembly of claim 1 , wherein the compound planetary gear set includes a carrier fixed to the input shaft for rotation in unison therewith; and wherein the carrier of the compound planetary gear set is axially constrained by a thrust bearing. 8. The power transfer assembly of claim 1 , further comprising: a housing substantially surrounding the bevel gears; a cover attached to the housing and substantially surrounding the compound planetary gear set; a center support attached to the housing and the cover between the housing and the cover; a bearing between the center support and a shaft portion of the first bevel gear; a lip seal between the shaft portion of the first bevel gear and the center support; wherein the housing and the center support define a first cavity containing the first and the second bevel gears; wherein the cover and the center support define a second cavity containing the compound planetary gear set; wherein the center support and the lip seal substantially isolate the first cavity from the second cavity, thereby permitting a first fluid in the first cavity to be isolated from a second fluid in the second cavity. 9. The power transfer assembly of claim 8 , wherein the center support has a passage extending through the center support and in communication with the lip seal. 10. The power transfer assembly of claim 1 , wherein the first bevel gear has a first annular shaft portion and a second annular shaft portion, and further comprising: a housing substantially surrounding the bevel gears; a cover attached to the housing and substantially surrounding the compound planetary gear set; a center support attached to the housing and the cover between the housing and the cover; wherein the center support has a center opening through which the first annular shaft portion and the input shaft extend; a first bearing between the center support and the first annular shaft portion of the first bevel gear; and a second bearing between the housing and the second annular shaft portion of the first bevel gear. 11. A modular power transfer unit assembly for a vehicle; wherein the vehicle has a front differential with a differential carrier defining a first axis of rotation and a propeller shaft defining a second axis of rotation substantially perpendicular to the first axis of rotation, the modular power transfer unit assembly comprising: an input shaft configured to be rotatably driven by the differential carrier about the first axis of rotation when the modular power transfer unit assembly is installed on the vehicle; a bevel gear set including a first bevel gear and a second bevel gear; wherein the first bevel gear is annular and concentrically surrounds the input shaft; wherein the second bevel gear is engaged with the first bevel gear and is rotatably driven by the first bevel gear to rotate about the second axis of rotation; wherein the second bevel gear is configured to rotatably drive the propeller shaft when the modular power transfer unit assembly is installed on the vehicle; a stationary housing surrounding and supporting the first and second bevel gears and adapted to be alternately connectable to either selected one of: a torque reduction unit concentric with the first axis of rotation and configured to transfer torque at a reduction ratio from the input shaft to the first bevel gear; and a direct torque unit concentric with the first axis of rotation and configured to transfer torque at a unitary ratio from the input shaft to the first bevel gear; wherein the propeller shaft rotates in the same direction in response to a forward rotation of the input shaft in an all-wheel drive mode when either the torque reduction unit or the direct torque unit is installed on the vehicle; wherein the torque reduction unit has: a compound planetary gear set concentric with the first axis of rotation; and a stationary cover attached to the stationary housing and substantially surrounding the compound planetary gear set; wherein the compound planetary gear set has: a first sun gear selectively operatively connectable to the stationary cover; a second sun gear fixed to the first bevel gear to rotate in unison there