An electrically operable motor vehicle door lock (1) has a locking mechanism including at least one locking element (2) and/or actuating element, a motor (3) which acts on the locking element (2) and/or actuating element, and an emergency energy source (12) for emergency operation of the motor (3) in the event of failure of a main energy source (6). A switching element (8, 9) actuated by the main energy source (6) is provided. The switching element (8, 9) connects the emergency energy source (12) to the motor (3) electrically in the event of failure of the main energy source (6) to and provide for the emergency operation.

An exemplary locking assembly includes, among other things, a lock that transitions between a first state that prevents disengaging electric vehicle supply equipment from a charge port and a second state that permits the disengaging. A control module is configured to command the lock to transition from the first to the second state in response to a user interaction with a selector device and an authentication of the user interaction. An exemplary securing method includes, among other things, receiving a request to disengage electric vehicle supply equipment (EVSE) from a charge port of a vehicle, permitting a disengaging if the request can be authenticated, and preventing the disengaging if the request cannot be authenticated.

An exemplary locking assembly includes, among other things, a lock that transitions between a first state that prevents disengaging electric vehicle supply equipment from a charge port and a second state that permits the disengaging. A control module is configured to command the lock to transition from the first to the second state in response to a user interaction with a selector device and an authentication of the user interaction. An exemplary securing method includes, among other things, receiving a request to disengage electric vehicle supply equipment (EVSE) from a charge port of a vehicle, permitting a disengaging if the request can be authenticated, and preventing the disengaging if the request cannot be authenticated.

A latch assembly for a closure panel and corresponding method of operation are provided. The assembly includes an actuation group to latch and unlatch the closure panel using power from a main power source during normal operation. A first backup energy source is selectively coupled to the actuation group and stores energy during normal operation and supplies the energy during a failure. A second backup energy source is selectively coupled to the first backup energy source and supplies energy thereto during the failure. A latch controller is coupled to the backup energy sources and detects latch operation and whether there is normal operation. The latch controller charges the first backup energy source using energy from the second backup energy source based on the detection of latch operation and the failure and disconnects the second backup energy source during normal operation to conserve energy stored in the second backup energy source.

The present disclosure relates to a closure latch assembly for a vehicle door, and more particularly to a closure latch assembly for a vehicle door equipped with a powered reset feature. To this end, the present disclosure relates to the use of a power actuator to actuate an actuatable mechanism in a power-on state, and an electronic reset circuit mechanism to reset the actuatable mechanism when the power actuator is in a power-off state. The electronic reset circuit mechanism is coupled to an electric motor associated with the power actuator.

Secured access to a vehicle is provided. A power input is configured to receive power from a source external to the vehicle. A voltage monitor is configured to measure voltage and/or state of health of a vehicle battery. An access component is configured to provide secured access to the vehicle. A processor is configured to, responsive to the voltage monitor indicating the vehicle battery is unable to power the access component, power the access component via the power input to allow the secured access to the vehicle despite the vehicle battery being depleted.

Secured access to a vehicle is provided. A power input is configured to receive power from a source external to the vehicle. A voltage monitor is configured to measure voltage and/or state of health of a vehicle battery. An access component is configured to provide secured access to the vehicle. A processor is configured to, responsive to the voltage monitor indicating the vehicle battery is unable to power the access component, power the access component via the power input to allow the secured access to the vehicle despite the vehicle battery being depleted.

An electronic door latching assembly for a side door of a vehicle is disclosed and includes a retaining member and an actuator. The actuator is operably connected to the retaining member and moves the retaining member between a primary position and an unlatched position. The electronic door latching assembly also includes a control module in electrical communication with the actuator. The control module executes instructions to: receive as input a power signal indicating that a loss of electrical power in the vehicle is imminent. After receiving the power signal, the control module receives a door open signal indicating that a door of the vehicle is being opened. In response to receiving the door open signal, the control module commands the actuator to rotate the retaining member from the unlatched position to the primary position where the side door is unable to latch shut.

An electronic door latching assembly for a side door of a vehicle is disclosed and includes a retaining member and an actuator. The actuator is operably connected to the retaining member and moves the retaining member between a primary position and an unlatched position. The electronic door latching assembly also includes a control module in electrical communication with the actuator. The control module executes instructions to: receive as input a power signal indicating that a loss of electrical power in the vehicle is imminent. After receiving the power signal, the control module receives a door open signal indicating that a door of the vehicle is being opened. In response to receiving the door open signal, the control module commands the actuator to rotate the retaining member from the unlatched position to the primary position where the side door is unable to latch shut.

A door handle module for a movable part of a vehicle, in particular for a side door, tailgate, bonnet or luggage compartment hatch, comprising a handle support that can be mounted on the outer skin of the movable part, a handle mounted movably on the handle support and having an operating mechanism that can be hidden at least in part by the outer skin, the operating mechanism being operatively connectable to a latch or a latch drive so that an, in particular mechanical, operation of the latch of the movable part can be performed, and further comprising a sensor unit having at least one sensor element in order to detect a user intention in an operating region of a door handle depression of the movable part so that the lock or the latch drive is electrically actuatable in the operating region in the event that a user intention is identified.