The object of the invention is a reversible activation unit for the alternate impingement of two separate motor vehicle functional elements (1, 2), in particular two motor vehicle door latches (1, 2). The activation unit possesses a single motor (3, 4) and two connecting elements (8, 10). The motor (3, 4) impinges either the distanced first functional element (1) via the connecting element (8) or the distanced second functional element (2) via the second connecting element (10) dependent on its working direction. According to the invention, the first connecting element (8) is connected to a first lever (7) and the second connecting element (10) to a second lever (9). The respective lever (7, 9) is impinged dependent on the working direction of the motor (3, 4) which preferably works in a linear manner. Furthermore, the two levers (7, 9) are connected via an interposed spring (15).

A door device for a vehicle includes a latch drive device configured to unlatch a swing door by driving a latch mechanism, a door hold-open device configured to hold the swing door at an opened angle by applying a braking force to the swing door, a door open switch issuing an operation request of the latch drive device to open the swing door; a door stop switch issuing an operation request of the door hold-open device, and a grip portion including the door open switch and the door stop switch to issue the operation requests of the door open switch and the door stop switch in a state where an occupant of the vehicle holds the grip portion.

A door opening/closing device drives a slide door to a locked state under authentication communication between an authentication ECU of a vehicle side and a mobile device, when the slide door is in a closed and unlocked state and the presence of a user is detected by a detection unit.

A two-pull, automatic reset, latch system is configured to operate during a no-power scenario and a power scenario. The latch system includes a release system, a release lever, and a coupling lever. The release lever is pivotally engaged to a stationary structure about a first axis. The coupling lever pivots about a second axis offset from the first axis, and is adapted to couple the release lever to the release system during a no-power scenario and upon two actuations of the release lever. The coupling lever is further adapted to maintain decoupling of the release lever from the release system during a power scenario.

A two-pull, automatic reset, latch system is configured to operate during a no-power scenario and a power scenario. The latch system includes a release system, a release lever, and a coupling lever. The release lever is pivotally engaged to a stationary structure about a first axis. The coupling lever pivots about a second axis offset from the first axis, and is adapted to couple the release lever to the release system during a no-power scenario and upon two actuations of the release lever. The coupling lever is further adapted to maintain decoupling of the release lever from the release system during a power scenario.

Disclosed are foreign object detection systems with control logic for governing use of vehicle door assemblies, and motor vehicles equipped with such FOD systems and logic. Methods are disclosed for regulating operation of a vehicle door locking mechanism. One method includes a vehicle controller determining the operating status of a control protocol that governs use of the locking mechanism. If the operating status is active, the controller receives sensor signals indicative of a location and/or velocity of an object within the sensor's supervision field. If the object is located within a protected door zone and/or the object's velocity is towards the protected zone, the controller determines whether the locking mechanism is locked or unlocked. If the locking mechanism is locked, the controller commands the locking mechanism to maintain the locked state. Conversely, if the locking mechanism is unlocked, the controller commands the locking mechanism to lock and maintain this state.

Disclosed are foreign object detection systems with control logic for governing use of vehicle door assemblies, and motor vehicles equipped with such FOD systems and logic. Methods are disclosed for regulating operation of a vehicle door locking mechanism. One method includes a vehicle controller determining the operating status of a control protocol that governs use of the locking mechanism. If the operating status is active, the controller receives sensor signals indicative of a location and/or velocity of an object within the sensor's supervision field. If the object is located within a protected door zone and/or the object's velocity is towards the protected zone, the controller determines whether the locking mechanism is locked or unlocked. If the locking mechanism is locked, the controller commands the locking mechanism to maintain the locked state. Conversely, if the locking mechanism is unlocked, the controller commands the locking mechanism to lock and maintain this state.

A power system for a vehicle having a vehicle body and door includes a first battery disposed on the vehicle body, a second, rechargeable battery disposed on the door, a first electrical contact disposed on the vehicle body, and a second electrical contact disposed on the vehicle door. The first and second electrical contacts are coupled to the first and second batteries such that when the door is in a fully closed position relative to the vehicle body the first and second batteries are electrically coupled to one another and the second battery is charged by the first battery, and when the door is not in a fully closed position the first and second batteries are electrically de-coupled from one another.

A variable pitch lead screw assembly and actuator assembly therewith is provided. The lead screw assembly includes a lead screw having a groove extending helically along a length of the lead screw. The groove is formed having a varying pitch. A drive nut is provided having a body with a through bore configured for receipt of the lead screw therethrough. The drive nut has teeth extending radially inwardly into the through bore for receipt in the groove of the lead screw. The teeth are pivotal in multiple directions relative to the body to allow the teeth to pivot in multiple directions within the groove.

Disclosed are foreign object detection systems with control logic for governing use of vehicle door assemblies, and motor vehicles equipped with such FOD systems and logic. Methods are disclosed for regulating operation of a vehicle door locking mechanism. One method includes a vehicle controller determining the operating status of a control protocol that governs use of the locking mechanism. If the operating status is active, the controller receives sensor signals indicative of a location and/or velocity of an object within the sensor's supervision field. If the object is located within a protected door zone and/or the object's velocity is towards the protected zone, the controller determines whether the locking mechanism is locked or unlocked. If the locking mechanism is locked, the controller commands the locking mechanism to maintain the locked state. Conversely, if the locking mechanism is unlocked, the controller commands the locking mechanism to lock and maintain this state.