Ultra-lightweight rear axle drive (ULRAD) assembly with clutch lubrication system

What is claimed is: 1. A power transfer assembly for a motor vehicle having a powertrain and a pair of wheels, comprising: a housing; a rotary input driven by the powertrain and including a tubular input shaft rotatably supported by the housing and defining an internal shaft chamber; a rotary output rotatably supported by the housing and drivingly connected to the pair of wheels; a hypoid gearset rotatably supported by the housing and including a ring gear driving the rotary output and a hollow pinion unit including a pinion gear segment meshed with the ring gear and a pinion shaft segment and which together define an internal pinion chamber; a torque transfer coupling operably disposed between the input shaft and the pinion shaft segment of the pinion unit, the torque transfer coupling being configured as a multi-plate clutch assembly having a first clutch member driven by the input shaft, a second clutch member driving the pinion shaft, and a clutch pack of alternating first and second clutch plates operably disposed between the first and second clutch members; and a pumpless lubrication system including a collector unit configured to capture lubricant splashed via rotation of at least one of the ring gear and the pinion gear segment and collect the splashed lubricant in a collection reservoir, and a conduit unit in fluid communication with the collection reservoir and arranged to transmit the lubricant collected in the collection reservoir through the internal pinion chamber and into the internal shaft chamber for lubricating and cooling the clutch pack, wherein the lubricant transmitted via the conduit unit is discharged in the shaft chamber, and wherein the input shaft includes lubrication bores for providing fluid communication between the shaft chamber and the clutch pack. 2. The power transfer assembly of claim 1 , wherein the conduit unit is a tubular member passing through an opening in the pinion gear segment and the pinion chamber and extending into the shaft chamber. 3. The power transfer assembly of claim 2 , wherein the conduit unit terminates before the lubrication bores. 4. The power transfer assembly of claim 1 , wherein the collector unit is fixed to the housing and configured to surround a portion of the ring gear for capturing lubricant splashed from rotation of the ring gear, wherein the collector unit includes a collector plate segment arranged in proximity to the ring gear, a collector reservoir segment defining the collection reservoir, and a connector segment in fluid communication with the collection reservoir, and wherein the conduit unit is attached to the connector segment of the collector unit and configured to direct lubricant from the collection reservoir to the shaft chamber. 5. The power transfer assembly of claim 1 , wherein the collector unit is integrally formed in the housing and includes a collector plate segment surrounding a portion of the ring gear, a collector reservoir segment defining the collection reservoir, and a connector segment in fluid communication with the collection reservoir, and wherein the conduit unit is attached to the connector segment and is configured to direct lubricant from the collection reservoir to the shaft chamber. 6. The power transfer assembly of claim 1 , further comprising an auger fixed for rotation with the pinion unit and disposed within the pinion chamber, wherein the auger directs lubricant from the collection reservoir into the shaft chamber. 7. The power transfer assembly of claim 1 , further comprising an auger disposed in the pinion chamber and fixed for rotation with the input shaft. 8. The power transfer assembly of claim 1 , wherein the rotary output is a differential assembly. 9. The power transfer assembly of claim 1 , wherein the torque transfer coupling includes a power-operated clutch actuator for selectively actuating the multi-plate clutch assembly for transferring drive torque generated by the powertrain from the input shaft to the pinion unit. 10. The power transfer assembly of claim 1 , wherein the collector unit includes a collector plate segment surrounding a portion of the ring gear, a collector reservoir segment defining the collection reservoir, and a connector segment in fluid communication with the collection reservoir, and wherein the connector segment extends into the pinion chamber. 11. The power transfer assembly of claim 10 , further comprising an auger disposed in the pinion chamber, and wherein the connector segment directs lubricant onto the auger. 12. The power transfer assembly of claim 10 , wherein the connector segment extends from the collection reservoir and defines a bend before extending into the pinion chamber. 13. A power transfer assembly for a motor vehicle having a powertrain and a pair of wheels, comprising: a housing: a rotary input driven by the powertrain and including an input shaft rotatably supported by the housing and defining an internal shaft chamber; a rotary output rotatably supported by the housing and drivingly connected to the pair of wheels; a hypoid gearset rotatably supported by the housing and including a ring gear driving the rotary output and a pinion unit including a pinion gear segment meshed with the ring gear and a pinion shaft segment and which together define an internal pinion chamber; a torque transfer coupling operably disposed between the input shaft and the pinion shaft segment of the pinion unit; and a pumpless lubrication system including a collector unit configured to capture lubricant splashed via rotation of at least one of the ring gear and the pinin gear segment and collect the splashed lubricant in a collection reservoir, and a conduit unit configured to direct the lubricant collected in the collection reservoir through the pinion chamber to the torque transfer coupling, wherein the collector unit includes a collector plate segment surrounding a portion of the ring gear, a collector reservoir segment defining the collection reservoir, and a connector segment in fluid communication with the collection reservoir and which extends into the pinion chamber, and wherein the conduit unit is in fluid communication with the connector segment of the collector unit. 14. The power transfer assembly of claim 13 , wherein the torque transfer coupling is a multi-plate clutch assembly having a clutch pack operably disposed between the input shaft and the pinion segment of the pinion unit, and wherein the lubricant transmitted from the collector unit to the conduit unit is discharged into at least one of the pinion chamber and the shaft chamber for lubricating the clutch pack. 15. The power transfer assembly of claim 13 , wherein the conduit unit is a tubular member passing through an opening in the pinion gear segment and configured to discharge lubricant into the shaft chamber, and wherein lubricant passages formed in the input shaft permit the lubricant to flow from the shaft chamber to the clutch pack. 16. A power transfer assembly for a motor vehicle having a powertrain and a pair of wheels, comprising: a housing; a rotary input driven by the powertrain and including a tubular input shaft rotatably supported by the housing and defining an internal shaft chamber; a rotary output rotatably supported by the housing and driving the pair of wheels; a hypoid gearset rotatably supported by the housing and including a ring gear driving the rotary output and a hollow pinion unit including a pinion gear segment meshed with the ring gear and a pinion shaft segment extending from the pinion gear segment and which together define an internal pinion chamber;