An all-wheel drive vehicle driveline can include an input member, first intermediate member, output member, sleeve, ring gear, and pinion gear. The input member can be coupled to an input of a differential mechanism for common rotation. The output member can be coupled to an output of the differential mechanism for common rotation. The sleeve can be axially movable between a first position wherein the input, output, and first intermediate members are rotatable relative to each other, a second position wherein the sleeve couples the input member to the first intermediate member for common rotation, and a third position wherein the sleeve couples the input member to the output member for common rotation. The ring gear can receive rotary power from the first intermediate member. The pinion gear can be meshingly engaged to the ring gear.

An AWD driveline includes first and second sleeves. The first sleeve is axially translatable between first, second, and third positions; the second sleeve is coupled for translation therewith. When the first sleeve is in the first position, the first sleeve couples an input of a differential to an intermediate member, and the second sleeve is rotatable relative to the first sleeve and couples first and second outputs members. The first output member can be an output of the differential. In the second position, the first sleeve is rotatable relative to the input or the intermediate member, and the second sleeve is rotatable relative to the first sleeve and couples the first and second output members. In the third position, the first sleeve is rotatable relative to the input or the intermediate member, and the second sleeve is rotatable relative to the first sleeve and the first or second output members.

Each of a first clutch and a second clutch is, for example, an electromagnetic clutch that is operated by an electromagnetic actuator, and is supplied with electric power from the same in-vehicle battery as a starter motor of an engine. An electronic control unit is configured to not change a drive mode during a stop of the engine, and, after a predetermined period has elapsed from a start of operation of the starter motor at a startup of the engine (for example, the startup has completed) and a battery voltage has been recovered, change the drive mode to any one of a two-wheel drive mode and a four-wheel drive mode with the first clutch and the second clutch.

A power transfer unit for a front wheel drive (FWD) vehicle includes a housing, a rear wheel drive gear shaft having a first end section configured to be selectively connected to a FWD transmission, a second end section including a gear member, an intermediate drive shaft having a first end configured to be operatively connected to the FWD transmission, a second end configured to be connected to a front wheel, and an intermediate portion having a gear element. A locking member is mounted to one of the rear wheel drive gear shaft and the intermediate shaft. The locking member is selectively shiftable between a first position, wherein the intermediate drive shaft is independent of the rear wheel drive gear shaft, and a second position wherein the gear member is operatively connected to the gear element.

A power transfer unit for a front wheel drive (FWD) vehicle includes a housing, a rear wheel drive gear shaft having a first end section configured to be selectively connected to a FWD transmission, a second end section including a gear member, an intermediate drive shaft having a first end configured to be operatively connected to the FWD transmission, a second end configured to be connected to a front wheel, and an intermediate portion having a gear element. A locking member is mounted to one of the rear wheel drive gear shaft and the intermediate shaft. The locking member is selectively shiftable between a first position, wherein the intermediate drive shaft is independent of the rear wheel drive gear shaft, and a second position wherein the gear member is operatively connected to the gear element.

Each of a first clutch and a second clutch is, for example, an electromagnetic clutch that is operated by an electromagnetic actuator, and is supplied with electric power from the same in-vehicle battery as a starter motor of an engine. An electronic control unit is configured to not change a drive mode during a stop of the engine, and, after a predetermined period has elapsed from a start of operation of the starter motor at a startup of the engine (for example, the startup has completed) and a battery voltage has been recovered, change the drive mode to any one of a two-wheel drive mode and a four-wheel drive mode with the first clutch and the second clutch.

Methods and systems are provided for a motorized disconnect operable to selectively engage and disengage two rotating components of a vehicle drivetrain. As one example, a motorized disconnect system is provided that operates via an electric motor and includes a shifter assembly with an oscillating gear track and cam profile for rotating the shifter assembly while moving it in an axial direction to selectively couple two rotating components.

A drive force transfer device that includes a friction clutch with improved response at the time when the friction clutch is pressed by a hydraulic pressure is provided. A drive force transfer device has: a clutch drum; an inner shaft; a friction clutch that has a plurality of outer clutch plates that are rotatable together with the clutch drum and a plurality of inner clutch plates that are rotatable together with the inner shaft; a piston that receives a hydraulic pressure supplied to a cylinder to press the friction clutch; and a hydraulic circuit that supplies the cylinder with working oil. The hydraulic circuit has a first pump portion that supplies the cylinder with the working oil, and a second pump portion that supplies the cylinder with the working oil at a pressure that is higher than that of the working oil supplied by the first pump portion.

A four-wheel drive vehicle includes a friction clutch that transmits a driving force to rear wheels, a hydraulic circuit including a control valve that reduces a pressure of hydraulic oil discharged from a hydraulic pump down to a control pressure corresponding to a control current, and the cylinder and a piston that receives the oil from hydraulic circuit the to press the friction clutch. In the hydraulic circuit, a ratio of an change amount in a feeding pressure to the cylinder to an change amount in the control current, when the feeding pressure to the cylinder is lower than a predetermined value, is lower than when the feeding pressure applied to the cylinder is equal to or higher than the predetermined value. The control apparatus controls a pressure of the hydraulic oil fed to the cylinder lower than the predetermined value when switching the driving state.

A propulsion system for an electric vehicle includes an assembly of four electric propulsion machines each having a stator and a rotor having an output shaft that is movable in rotation about an axis. Also includes is a common gearwheel that is kinematically connected to the n output shafts and that is able to receive the torque provided by the electric machines so as to form a first speed reducer, and primary gearwheels able to be driven by the common gearwheel. An intermediate shaft is able to be driven by intermediate gearwheels, each primary gearwheel being kinematically connected to a corresponding intermediate gearwheel so as to form a pair of gears with which a second speed reducer is associated, and a secondary shaft that is able to drive the vehicle and that has a secondary gearwheel kinematically connected to the intermediate shaft so as to form a third speed reducer.