An assembly for a vehicle includes a first door and a second door movable from an open position to a closed position. The assembly includes a first anchor supported by the first pillar movable along an axis to an engaged position. The assembly includes a first rod supported by the first door movable along an axis to an engaged position. The assembly includes a second rod supported by the second door movable along the axis to an engaged position. The first anchor is lockingly engaged with the first rod when first anchor is in the engaged position. The first rod is lockingly engaged with the second rod when the first rod is in the engaged position and the first anchor is in the engaged position.

A system and method for controlling vehicle locks is provided that enable control of both a vehicle door lock and a vehicle closure lock using a single multipurpose switch. The system includes a vehicle door lock, a vehicle closure lock, a momentary, multi-purpose switch, and a control module. The control module receives an input signal generated by actuation of the switch and determines an elapsed time between the actuation and release of the switch. The module generates a closure lock control signal if the elapsed time meets a predetermined requirement relative to a predetermined time. The closure lock control signal unlocks the closure lock. The module also generates a door lock control signal responsive to the input signal if one or more predetermined conditions are met. The door lock control signal switches the state of the door lock between locked and unlocked states.

A system and method for controlling vehicle locks is provided that enable control of both a vehicle door lock and a vehicle closure lock using a single multipurpose switch. The system includes a vehicle door lock, a vehicle closure lock, a momentary, multi-purpose switch, and a control module. The control module receives an input signal generated by actuation of the switch and determines an elapsed time between the actuation and release of the switch. The module generates a closure lock control signal if the elapsed time meets a predetermined requirement relative to a predetermined time. The closure lock control signal unlocks the closure lock. The module also generates a door lock control signal responsive to the input signal if one or more predetermined conditions are met. The door lock control signal switches the state of the door lock between locked and unlocked states.

A latching solenoid (100, 200, 300) includes a coil (114) and an armature (120). The armature (120) moves between latch position and a rest position in response to momentary energization of the coil (114) without moving in response to de-energization of the coil (114). A solenoid controller (140) is operable to receive messages from a vehicle bus (108, 410) and output control signals that cause energization of the coil (114).

The present invention provides an onboard device capable of further enhancing safety of an occupant aboard a vehicle. The onboard device controlling locking of a vehicle door includes an occupant detector detecting the occupant inside a vehicle, a shut door determiner determining whether the vehicle door is closed, and a locking controller locking the vehicle door when the shut door determiner determines that the vehicle door is closed and the occupant detector detects the occupant. By locking the vehicle door UDR a third party can be prevented from entering the vehicle through the vehicle door, for example, and the safety of the occupant aboard the vehicle can be further enhanced.

The present invention provides an onboard device capable of further enhancing safety of an occupant aboard a vehicle. The onboard device controlling locking of a vehicle door includes an occupant detector detecting the occupant inside a vehicle, a shut door determiner determining whether the vehicle door is closed, and a locking controller locking the vehicle door when the shut door determiner determines that the vehicle door is closed and the occupant detector detects the occupant. By locking the vehicle door UDR a third party can be prevented from entering the vehicle through the vehicle door, for example, and the safety of the occupant aboard the vehicle can be further enhanced.

A decentralized control unit of a motor vehicle, the decentralized control unit having a communication controller, which when installed, communicates via an antenna arrangement with a wireless communication network external to the vehicle by means of a mobile communication standard in order to provide a peripheral function. According to the invention, the communication controller, when installed, generates digital data signals in a preprocessing routine from antenna signals received via the antenna arrangement, and communicates the data signals to a central control unit of the motor vehicle via a communication network internal to the motor vehicle for completion of the peripheral function there.

A decentralized control unit of a motor vehicle, the decentralized control unit having a communication controller, which when installed, communicates via an antenna arrangement with a wireless communication network external to the vehicle by means of a mobile communication standard in order to provide a peripheral function. According to the invention, the communication controller, when installed, generates digital data signals in a preprocessing routine from antenna signals received via the antenna arrangement, and communicates the data signals to a central control unit of the motor vehicle via a communication network internal to the motor vehicle for completion of the peripheral function there.

Disclosed is a method of determining the position of a portable user device around a vehicle by a location device placed on board the vehicle and communicating with the portable device by radio waves, including the execution of the following steps whenever the portable device receives a signal from the location device: step E3: Measuring and storing a value of strength of the signal) thus received; step E4: Measuring and storing a value of acceleration) of the portable device; step E5: Calculating a ratio between a variation of the strength value thus measured, relative to a strength value stored at a preceding instant-RSSI, and a variation of the acceleration value thus measured, relative to an acceleration value stored at the preceding instant-AC; step E6: Comparing the ratio thus calculated with at least one predetermined threshold, in order to determine a distance between the portable device and the vehicle.

Systems, devices, and methods of locking a lockable volume. The lock may comprise a bolt and a slider. The slider moves linearly to move the bolt in position to engage a securement feature. The engagement of the bolt with the securement feature secures the securement feature, thereby locking the door to which the securement feature is attached.