The invention relates to a multi-speed planetary transmission (10). The multi-speed planetary transmission (10) comprises a driveshaft (12), which comprises a sun gear (18) and a ring gear (19), and an output shaft (14), which comprises a planet carrier with at least one planet gear (30). The drive shaft (12) and the output shaft (14) can be connected together or separated from each other by means of a clutch (20). The multi-speed planetary transmission (10) has a freewheel (26), via which a shift is carried out between a first transmission ratio and a second transmission ratio under a load using the clutch (20)

An actuating means for a park lock arrangement, where the actuating means is arranged to switch between a release position and a lock position, where the actuating means includes a lock section provided with a lock section bearing surface adapted to bear against an actuation end of a park pawl in the lock position, where the lock section bearing surface is flat. The advantage of the invention is that a compact and cost-effective actuating means for a park lock arrangement with is provided.

The present invention relates to a locking device (1) of a parking brake, comprising a ratchet wheel (10) movable about an axis of rotation (X), at least two pawls (20) which can engage in the ratchet wheel (10) to fix it, an actuating device (50) and a coupling element (30), wherein the coupling element (30) couples the at least two pawls (20) to the actuating device (50), and wherein the coupling element (30) is movable by the actuating device (50) into a first position (A), in which the at least two pawls (20) allow rotation of the ratchet wheel (10) in a first direction of rotation and a second direction of rotation, and a second position (B), in which the at least two pawls (20) can engage in the ratchet wheel (10) and allow rotation in only the first direction of rotation. The present invention also relates to a parking brake with a locking device (1).

A vehicle transmission includes a plurality of friction clutches and a selectable one-way clutch. The transmission also includes a controller programmed to, in response to detecting a component fault, switch the selectable one-way clutch from a passive state to an active state by commanding engagement of a first subset of the friction clutches to establish a slip elimination state. The controller is also programmed to, following establishment of the slip elimination state, command the selectable one-way clutch to the active state.

A parking lock device includes a parking gear, a parking pawl, a parking cam, a solenoid actuator, and a power conversion mechanism. The power conversion mechanism is configured to convert reciprocal motion of the plunger to rotary motion of the parking cam in one direction. When the parking cam rotates, a position of a cam surface of the parking cam that abuts the parking pawl is changed, so as to alternately switch between a locked position where rotation of the parking gear is stopped and an unlocked position where meshing between the parking gear and the parking pawl is canceled. A stroke amount of the plunger is reduced in a range where the parking cam can rotate. In this way, the parking lock device can be downsized. Therefore, mountability of the parking lock device on a vehicle is improved.

There is provided a method of controlling an electric vehicle. The method includes obtaining by a controller of the electric vehicle a first state indicator of a state of the electric vehicle, receiving at the controller a status indicator of an operating status of the electric vehicle, and updating by the controller the state of the electric vehicle based on the status indicator to an updated state. The updated state may be associated with a second state indicator. The method also includes determining by the controller a given braking type of a braking to be applied to the electric vehicle. This determining may be based on one or more of the second state indicator and the status indicator. The method also includes applying to the electric vehicle the braking of the given braking type. Systems for applying such braking are also provided.

There is provided a method of controlling an electric vehicle. The method includes obtaining by a controller of the electric vehicle a first state indicator of a state of the electric vehicle, receiving at the controller a status indicator of an operating status of the electric vehicle, and updating by the controller the state of the electric vehicle based on the status indicator to an updated state. The updated state may be associated with a second state indicator. The method also includes determining by the controller a given braking type of a braking to be applied to the electric vehicle. This determining may be based on one or more of the second state indicator and the status indicator. The method also includes applying to the electric vehicle the braking of the given braking type. Systems for applying such braking are also provided.

The invention relates to an electrically driveable drive axle (19) for an all-terrain utility vehicle, comprising a first drivetrain (20) with a first electric motor (21), with a first transmission (22) and with a first drive output (23), and comprising a second drivetrain (30) with a second electric motor (31), with a second transmission (32) and with a second output (33), wherein the first drivetrain (20) and the second drivetrain (30) are arranged in a common housing (40) and/or on the common housing (40), and wherein the first drivetrain (20) forms a first torque path and the second drivetrain (30) forms a second torque path. The drive axle (10) according to the invention is characterized in that the first torque path and the second torque path are mechanically separate from one another. The invention furthermore relates to a corresponding vehicle.

A parking lock for a transmission of an electric or hybrid vehicle is disclosed. The parking lock includes a lock device including an actuatable actuating element and a setting element adjustable between a deployed position and a retracted position. The locking device is configured such that, in response to repeated actuation of the actuating element, the setting element is, via a coupling mechanism, adjusted alternately between the retracted position and the deployed position. A camshaft is provided with a cam arranged on the camshaft that is connected in terms of drive to the lock device. A ratchet wheel is provided with a pawl that is adjustable between an engagement position, where the pawl blocks a rotation of the ratchet wheel, and a release position, where the blocking of the ratchet wheel is released. The setting element adjusts the pawl between the engagement position and the release position.

The invention relates to a control device (10) for a parking brake device, having an electronic device (12) by means of which, in the event of failure of a power supply system of a vehicle equipped with the control device (10) and the parking brake device during a procedure for parking the vehicle, at least one activation signal (14) can be output to a triggering device (16) of the parking brake device, so that the triggering device (16) can be activated by means of the at least one activation signal (14) and the parking brake device can be transferred to a locking mode by means of the activated triggering device (16), such that the vehicle is locked in its current parking position by means of the parking brake device present in its locking mode. Therefore, even in such a situation, secure parking of the vehicle with a minimised risk of rolling away is ensured. The invention likewise relates to parking brake devices for vehicles. The invention also relates to a method for operating a parking brake device of a vehicle.