A torsional vibration damping system (7) for a motor vehicle drive train (1) has an input side (14) and an output side (26) connected via a damper unit (27). The damper unit (27) includes two torsional vibration dampers (17, 18) and a vibration damper (19). The damper unit (27) are configured for placement in a wet space (30) of a housing (6).

The invention relates to a parking brake for a motor vehicle, including a pivotable locking mechanism for applying a retaining force to a parking brake gear. The locking mechanism can lock into the parking brake gear by means of an axially movable first actuation unit. According to the invention, the first actuation unit is designed as a spring-loaded cam follower. The invention also relates to an operating method for locking and unlocking the parking brake.

A webbing take-up device that includes a spool that is rotated in a take-up direction to take up webbing worn by an occupant and that is rotated in a pull-out direction by the webbing being pulled out, and a frame that rotatably supports the spool. The frame includes a fixed stay portion that is fixed to a vehicle body, and a rotation stop stay portion that is disposed spaced apart from the vehicle body and that by being engaged with the vehicle body is restricted from rotational displacement relative to the fixed stay portion.

This disclosure relates to an electrified vehicle with a vibration isolator within a frame of the vehicle and a corresponding method. An electrified vehicle according to this disclosure includes a frame with a rail, a vibration isolator within the rail, and a battery pack connected to the rail by way of the vibration isolator. Among other benefits, mounting the vibration isolator within the rail increases the amount of available packaging space.

A hybrid module is configured for arrangement in a torque path upstream from a transmission and downstream from an internal combustion engine. The hybrid module includes an electric motor and a clutch. The electric motor includes a rotor and a rotor carrier supporting the rotor. The hybrid module also includes a damper assembly fixed to the rotor carrier. The clutch is configured for selectively coupling the damper assembly to a shaft drivingly coupled to the internal combustion engine. The damper assembly includes an output configured for connecting to an input shaft of the transmission.

A hybrid module for a motor vehicle power train, including an input side for connecting to an internal combustion engine, an output side for connecting to a drive wheel, an electric drive motor comprising a stator and a rotor and a torque transfer device arranged between the roto and the output side. The transfer device is designed to reduce rotational irregularity.

A vehicle attitude control device includes a controller including a low-pass filter. The controller calculates a manipulated variable of the actuator that allows the roll of the vehicle to be suppressed. The controller processes the roll angle acceleration with the low-pass filter, integrates the roll angle acceleration in which a high-frequency component has been removed by the low-pass filter, and converts a roll angle velocity obtained by the integration, into the manipulated variable. The low-pass filter has a first vehicle speed-cutoff frequency characteristic in which a cutoff frequency becomes higher with increase in the vehicle speed, and the first vehicle speed-cutoff frequency characteristic is designed such that a peak frequency in roll vibration coincides with a local minimum roll frequency in wheelbase filtering, the roll vibration being amplified by a dead time and a phase delay in control by the controller.

An engine assembly arrangement for a motor vehicle, with a drive assembly, which is mounted directly at a support element via at least one first fixed bearing. A support structure engages at the drive assembly, on the one hand, via a second fixed bearing and via a third fixed bearing that is spaced apart from the second fixed bearing, and, on the other hand, is articulated at the support element via a fourth fixed bearing.

This disclosure relates to an electrified vehicle with a vibration isolator within a frame of the vehicle and a corresponding method. An electrified vehicle according to this disclosure includes a frame with a rail, a vibration isolator within the rail, and a battery pack connected to the rail by way of the vibration isolator. Among other benefits, mounting the vibration isolator within the rail increases the amount of available packaging space.

An apparatus for reducing vibrations of a two-cylinder engine for a hybrid electric vehicle includes a reference signal generator for generating a first reference signal and a first reference phase, a speed calculator for calculating a speed of the motor based on the position of the motor, a vibration extractor for extracting a first vibration signal based on the speed of the motor, a variable filter, a filter coefficient updater, a phase calculator, a phase shift compensator, a synchronization signal generator for generating a first synchronization signal synchronized with the first vibration signal based on a first reference phase transferred from the reference signal generator, the second phase difference transferred from the phase calculator and the first compensation value transferred from the phase shift compensator, an inverse phase signal generator, and a torque generator for generating a final command torque based on the first inverse phase signal.