An axle assembly with a differential assembly, a housing and a transmission. The transmission has a first and second planetary gearsets that have associated (i.e., first and second) ring gears, planet carriers and sun gears. The first planet carrier is coupled to a differential carrier of the differential assembly for common rotation. The second ring gear is non-rotatably coupled to the housing. The second planet carrier is coupled to the second differential output for common rotation. The second sun gear is coupled to the first sun gear for common rotation.

An axle assembly with a differential assembly, a housing and a transmission. The transmission has a first and second planetary gearsets that have associated (i.e., first and second) ring gears, planet carriers and sun gears. The first planet carrier is coupled to a differential carrier of the differential assembly for common rotation. The second ring gear is non-rotatably coupled to the housing. The second planet carrier is coupled to the second differential output for common rotation. The second sun gear is coupled to the first sun gear for common rotation.

A multi-output differential gear apparatus includes a first differential gear having a first output gear and a middle gear, and second differential gear having a second output gear and a third output gear.

A multi-output differential gear apparatus includes a first differential gear having a first output gear and a middle gear, and second differential gear having a second output gear and a third output gear.

A differential device is provided in which a first wave number (Z1) of a first hypo groove part on an input plate, a second wave number (Z2) of a first epi groove part on a first differential plate and opposing the first hypo groove part, a third wave number (Z3) of a second hypo groove part on the first differential plate and on the opposite side from the first epi groove part, and a fourth wave number (Z4) of a second epi groove part on a second differential plate and opposing the second hypo groove part are set as Z1=8, Z2=Z3=6 and Z4=4, or as Z1=Z4=6, Z2=4, Z3=8. Such differential device enables equal torque distribution and equal differential rotation via a cycloid reduction mechanism without using a bevel gear or a center plate.

A planetary differential continuously variable transmission is provided having a first drive input ring gear having internal teeth, and a planetary differential connected to the first drive input ring gear, A first electric machine is provided having a first stator and a first rotor, with the first rotor being connected to the first drive ring input ring gear. A second electric machine is provided having a second stator and a second rotor, with the second rotor being connected to the planet gear carrier of the planetary differential and acts as a second drive input. A one way clutch is located between the second stator and the second rotor to limit a reverse rotation of the second rotor in order to improve efficiency and save battery life in electric or hybrid vehicles with this drive system.

A torque transfer assembly for a tandem axle drive train, having a first synchronizer assembly including a first portion arranged to non-rotatably connect to a power input shaft arranged to receive torque from an engine, a second synchronizer assembly, an overdrive gear assembly engageable with the first synchronizer assembly, and an inter-axle differential gear (IAD) arranged to engage first and second power shafts, and engaged with the second synchronizer assembly. In a differential mode, a first torque path is formed from the power input shaft to a first axle through the first synchronizer, the power shafts, the IAD and second synchronizer, and a second torque path is formed from the power input shaft to a second axle through the first synchronizer, the power shafts, and the IAD, and, in overdrive mode, a third torque path is formed from the power input shaft to the first axle through the first synchronizer.

A torque transfer assembly for a tandem axle drive train, having a first synchronizer assembly including a first portion arranged to non-rotatably connect to a power input shaft arranged to receive torque from an engine, a second synchronizer assembly, an overdrive gear assembly engageable with the first synchronizer assembly, and an inter-axle differential gear (IAD) arranged to engage first and second power shafts, and engaged with the second synchronizer assembly. In a differential mode, a first torque path is formed from the power input shaft to a first axle through the first synchronizer, the power shafts, the IAD and second synchronizer, and a second torque path is formed from the power input shaft to a second axle through the first synchronizer, the power shafts, and the IAD, and, in overdrive mode, a third torque path is formed from the power input shaft to the first axle through the first synchronizer.

A gearbox unit for a motor vehicle, wherein the motor vehicle has a first and a second wheeled axle, the second wheeled axle including a first sub-axle and a second sub-axle. The gearbox assembly of the motor vehicle may include a first connecting shaft operatively connectable to the first sub-axle, a second connecting shaft operatively connectable to the second sub-axle, and a coupling gearbox, which has a drive input shaft operatively connectable to a drive assembly of the motor vehicle and which has a drive output shaft operatively connectable to the first wheeled axle. The drive input shaft may be operatively connected in torque-splitting fashion to the first and the second connecting shaft. The drive output shaft may be operatively connectable to the first connecting shaft so as to be switchable by a first clutch and to the second connecting shaft so as to be switchable by a second clutch.

A gearbox unit for a motor vehicle, wherein the motor vehicle has a first and a second wheeled axle, the second wheeled axle including a first sub-axle and a second sub-axle. The gearbox assembly of the motor vehicle may include a first connecting shaft operatively connectable to the first sub-axle, a second connecting shaft operatively connectable to the second sub-axle, and a coupling gearbox, which has a drive input shaft operatively connectable to a drive assembly of the motor vehicle and which has a drive output shaft operatively connectable to the first wheeled axle. The drive input shaft may be operatively connected in torque-splitting fashion to the first and the second connecting shaft. The drive output shaft may be operatively connectable to the first connecting shaft so as to be switchable by a first clutch and to the second connecting shaft so as to be switchable by a second clutch.