A torque converter having a hydraulically-actuated stator clutch therein is provided. In particular, the torque converter includes a stator, and a hub axially aligned with at least a portion of the stator and located radially inward of at least a portion of the stator. The hydraulically-actuated stator clutch is disposed within the stator and is configured to selectively couple the stator to the hub. The hub defines a dedicated fluid passageway extending therethrough to fluidly couple a transmission fluid source to the hydraulically-actuated clutch. Slipping of the clutch is therefore controlled via hydraulic fluid. This allows for modification of characteristics of the torque converter that are not otherwise possible with standard one-way clutches in torque converter stators.

A vibration damping device includes a supporting member rotatable about a rotation center of a rotating element, a restoring-force generating member coupled to the supporting member, and an inertial mass body coupled to the supporting member via the restoring-force generating member. The restoring-force generating member includes two guidable portions disposed with a clearance therebetween in a circumferential direction of the rotating element, and a torque transmission portion between the two guidable portions to transmit torque to and from the supporting member. The inertial mass body includes multiple guide portions for guiding corresponding guidable portions. When the supporting member rotates, the guidable portions transmit a component force of centrifugal force acting on the restoring-force generating member to the inertial mass body via the guide portions so the restoring-force generating member swings relative to the rotation center along a radial direction so that the inertial mass body swings about the rotation center.

A clutch portion is disposed between a front cover and a turbine. A piston is movable in an axial direction and turns the clutch portion into a torque transmission state. A sleeve supports an inner peripheral surface of the piston such that the piston is movable in the axial direction. An oil chamber is supplied a hydraulic oil for activating the piston to turn the clutch portion into the torque transmission state. The sleeve includes an inner peripheral side oil channel and an outer peripheral side oil channel. The inner peripheral side oil channel leads the hydraulic oil residing on an inner peripheral side of the sleeve to an outer peripheral side. The outer peripheral side oil channel leads the hydraulic oil led thereto through the inner peripheral side oil channel to the oil chamber.

A torque converter assembly includes a pump and a turbine fluidly connected to the pump. The torque converter assembly also includes a damper operable upstream from the turbine. The damper is configured to reduce oscillation from the pump toward the turbine. The torque converter assembly further includes a clutch operable between the pump and the turbine. The clutch is operable in a slip condition in which the clutch is adjustable to allow the pump and the turbine to slip relative to each other to control oscillation through the clutch to the turbine. The damper is operable upstream from the clutch such that oscillation from the pump is reduced by the damper before oscillation reaches the clutch. Additionally, a vehicle includes the torque converter assembly operable between an output shaft of an engine and an input member of a transmission.

A torque converter includes a front cover, an impeller, a turbine, a lock-up clutch, and a damper assembly. The front cover is arranged to receive a torque. The impeller has an impeller shell non-rotatably connected to the cover. The turbine is in fluid communication with the impeller and includes a turbine shell. The lock-up clutch includes a clutch plate. The damper assembly includes a spring and a cover plate supporting the spring. The cover plate includes a spring window configured to receive the spring, and a plurality of tabs extending from a radial side of the spring window towards the front cover. The plurality of tabs are configured to drivingly connect to the clutch plate.

An architecture for coupling an output member from a prime mover to an input member of a device to be driven. The architecture includes a torque transfer device defining an indirect coupling for transferring torque therethrough, a direct drive connection member providing a direct coupling for transferring torque therethrough, and a dynamically controllable clutch that selectively and rotationally drives either the torque transfer device or the direct drive connection member. The torque transfer device is rotatably disconnected from the dynamically controllable clutch and undriven when the dynamically controllable clutch is driving the direct drive connection member.

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 hydrodynamic coupling arrangement has a housing connected to pressure medium lines for conducting pressure medium into or out of a pressure space sealed by a piston of a clutch device relative to a toroidal space of a hydrodynamic circuit provided in the housing. A rotatable area is provided for axially displaceably receiving a radially inner piston hub of the piston of the clutch device, and at least one through-opening which is rotatable relative to the housing is provided in a through-opening area for producing at least one flow connection between at least one pressure medium line and the pressure space. The receiving area and the through-opening area are in rotational communication with a retarding device influencing a flow of pressure medium in the pressure space, this flow of pressure medium arriving in the pressure space after passing through the through-opening area.

A torque transmission assembly (20) for a drive system of a vehicle, includes a housing (26), an input-side friction surface arrangement which is coupled to the housing (26) for corotation around a rotational axis (A), an output-side friction surface arrangement which is coupled to a drive member (36) for corotation around the rotational axis (A) and a deflection mass arrangement (50) with a deflection mass carrier (52) and at least one deflection mass (54) supported at the deflection mass carrier (52) and which can be deflected from a basic relative position with respect to the deflection mass carrier (52). The torque transmission assembly (20) does not comprise a torsional vibration damper arrangement, and/or the deflection mass carrier (52) is connected to the housing (26) so as to be fixed with respect to rotation relative to the housing for corotation around the rotational axis (A).

A damper device of a starting device includes a drive member, a driven member, outer springs that transmit torque between the drive member and the driven member, first and second inner springs that are placed inward of the outer springs and that transmit torque between the drive member and the driven member, and a dynamic damper having third springs coupled to a first intermediate member as a rotary element and a turbine runner as a mass body coupled to the third springs. The third springs of the dynamic damper are disposed so as to be located next to the outer springs of the damper device in the circumferential direction.