A system for bypassing a torque converter in a powertrain is provided. The system includes a torque generating device including an output shaft and a transmission assembly. The transmission assembly includes a transmission output shaft and a torque converter, a torque converter bypass shaft. The transmission assembly further includes a disconnect clutch selectively coupling the torque converter with the torque generating device and a torque converter clutch selectively coupling the torque converter bypass shaft with the torque generating device. Engaging the disconnect clutch and disengaging the torque converter clutch enables the torque generating device to transmit torque to the transmission output shaft through the torque converter. Engaging the torque converter clutch and disengaging the disconnect clutch enables the torque generating device to transmit torque to the transmission output shaft through the torque converter bypass shaft.

A powertrain coupling includes a flexplate configured to be connected to an engine output, a torque converter configured to be connected to a transmission input, and at least one friction clutch disposed between the flexplate and the torque converter and configured for actuation by movement of the torque converter. A powertrain one-way clutch includes engagement elements movably coupled between input and output elements, and at least one friction clutch carried between the input and output elements. A torque converter includes a rear cover, a front cover coupled to the rear cover, and including a frontward facing clutch surface, and a one-way clutch integrated into the front cover and including a one-way clutch plate integrated into the frontward facing clutch surface of the front cover.

A torque transmitting device for a drive train for transmitting an input torque provided by at least one drive element to an output element. The device including: an electric motor having a stator and a rotor which can be rotated relative to said stator for providing a further drive torque; a separating clutch arranged operatively between the first drive element and the electric motor; and at least one centrifugal pendulum which is arranged operatively between the separating clutch and the output element and has at least two pendulum masses which are accommodated so as to be deflectable to a limited extent along a pendulum path and so as to be peripherally adjacent to one another on at least one pendulum mass carrier that can be rotated about an axis of rotation, wherein the peripherally adjacent pendulum masses are coupled to one another via coupling means.

An object of the present disclosure is to provide a power transmitting apparatus which can sufficiently damp the torque variation and also can further improve the fuel consumption. For achieving the object of the present disclosure above, there is provided a power transmitting apparatus of a vehicle comprising a damper mechanism including dampers having spring properties for damping torque variations of an engine and being able to arbitrarily and selectively transmit or cut off a driving power of an engine to wheels characterized in that the power transmitting apparatus further comprises a spring property switching device for arbitrarily switching spring properties of the damper mechanism; and a spring property controller for actuating the spring property switching device to switch the spring properties according to the running state of the vehicle.

A CVT drive train including an input drive is disclosed. A torque converter is downstream from the input drive in a power flow direction and contained within a torque converter housing, where the torque converter serves as a starting element. A disconnect clutch is contained within the torque converter housing along with a converter bridging clutch. The bridging clutch is combined with the disconnect clutch such that the impeller shell acts as a friction member for both clutches. In this way, the bridging clutch is positioned between a turbine shell and an impeller shell and the disconnect clutch is positioned between the impeller shell and housing of the torque converter. A continuously variable variator is operatively connected to and arranged downstream from the torque converter, and a rotation reversing device is downstream of the variator to enable a shift between a neutral position of the drive train and one of a forward driving position and a reverse driving position.

Disclosed are engine flexplates with integrated engine disconnects, methods for making and for using such flexplates, and motor vehicles with an engine flexplate having an integrated engine disconnect device. An engine flexplate assembly is disclosed for operatively coupling an engine to a hydrokinetic torque converter. The flexplate assembly includes a disk-shaped body with a central hub that rigidly attaches on the fore side thereof to the engine output shaft for common rotation therewith. A disconnect device, which is positioned on the aft side of the disk-shaped body, includes concentric inner and outer races. The outer race is rigidly attached to the disk-shaped body for common rotation therewith. The inner race rigidly attaches to the front cover of the TC housing for common rotation therewith. The disconnect device operatively disconnects the engine output shaft from the TC housing front cover when a torque transmitted therebetween reverses direction.

A compact P2 hybrid module for connecting an internal combustion engine to a transmission of a vehicle. The P2 module includes an input shaft, an electric motor having a stator and a rotor, a torque converter having a front cover and a rear cover. The torque converter further including an impeller and a turbine coupled to one another so as to form a hydrodynamic circuit, and the turbine being further coupled to an output member of the torque converter. The front cover of the torque converter being rotationally fixed with the rotor of the electric motor. An electric connect/disconnect friction clutch assembly having first and second sets of friction plates. The first and second sets of friction plates being rotationally lockable with one another during engagement of the electric connect/disconnect friction clutch assembly. An electro-mechanical controllable clutch assembly having an input member and an output member.

A torsional vibration damper of a hydrokinetic torque-coupling device. The torsional vibration damper comprises an input member including a first side plate and a supporting member mounted to the first side plate, and a radially elastic member elastically coupled to the input member. The radially elastic member includes a central part and an elastic blade formed separately from the central part. The central part has a mounting portion. The elastic blade has a connection portion, a free distal end and a curved raceway portion disposed between the connection portion and the distal end. The connection portion of the elastic blade is non-rotatably connected to the mounting portion of the central part. The curved raceway portion of the elastic blade is configured to elastically engage the supporting member and to elastically bend in the radial direction upon rotation of the input member with respect to the radially elastic member.

A control apparatus includes an ECU that is configured to: start engagement transition control for outputting an engagement transitional hydraulic pressure command value that causes an engagement device to be actuated from a released state toward an engaged state from when an operating member is displaced from a non-drive operating position; when an engagement transition time is longer than a target time, learn the engagement transitional hydraulic pressure command value such that the engagement transitional hydraulic pressure command value increases; when the engagement transition time is shorter than the target time, learn the engagement transitional hydraulic pressure command value such that the engagement transitional hydraulic pressure command value reduces; and prohibit learning of the engagement transitional hydraulic pressure command value or invalidate the learned engagement transitional hydraulic pressure command value, when the operating time of the operating member is longer than a predetermined time.

A hybrid drive module is disclosed. An exemplary embodiment of the present invention provides a hybrid drive module that selectively transmits torque transmitted from an engine and a motor to a transmission including a housing disposed between the engine and the transmission, a drive shaft rotatably mounted inside the housing in a radial direction with its one end portion toward the engine based on an axial direction protruding from the housing and to which torque of the engine is inputted, a rotor hub provided within the housing and mounted with a rotor of the motor on its radially outer side, and in which a hub plate part integrally extending toward the drive shaft and rotatably connected to the other end portion of the drive shaft toward the transmission based on the axial direction is formed on its radially inner side, a rotor hub ridge, an inner circumferential surface of which is rotatably supported by the housing based on the radial direction and an external circumferential surface of which is fixed to the rotor hub based on the axial direction at the side of the engine, an engine clutch disposed at the engine side in the axial direction with the hub plate part interposed therebetween, and configured to directly connect the drive shaft and the rotor hub to selectively transmit the torque of the engine to the rotor hub, and a torque converter disposed at the side of the transmission in the axial direction with the hub plate part interposed therebetween to be connected to the rotor hub, and configured to multiply the torque of the engine, torque of the motor, or the torque of the engine and the motor when a vehicle is initially driven, or to transmit it to the transmission in a ratio of 1:1, wherein at least one fluid groove for supplying an operating fluid to the rotor to cool the rotor between the rotor hub and the engine clutch is formed on a surface of the hub plate part toward the engine clutch based on the axial direction.