Lock mechanism is provided between pawl lever and manual release mean. The present vehicle door latch apparatus includes ratchet member that engages latch and that can be released from latch by release component force F2, latch restraint that prevents ratchet member from being disengaged from latch and powered release means that moves ratchet restraint. Ratchet member includes base lever and pawl lever. When ratchet restraint is moved, base lever is moved to a non-regulated position, where pawl lever can be disengaged from latch by release component force F2. Manual release means is connected to pawl lever. Lock mechanism is provided between pawl lever and manual release means.

An access arrangement for a vehicle comprises a vehicle-side unlocking device for actuating an unlocking mechanism and a vehicle-side rechargeable electrical energy storage device configured to supply the unlocking device with energy. Furthermore, it comprises a vehicle-side charged electrical energy storage device configured to charge the vehicle-side rechargeable electrical energy storage device. The access arrangement further comprises a charging control device for controlling the charging process of the vehicle-side rechargeable electrical energy storage device by the vehicle-side charged electrical energy storage device. Finally, it comprises a vehicle-side authentication device for checking an access authorization and for controlling the charging control device depending on the checking of the access authorization. By providing an energy storage device which is already charged, independent of the vehicle electrical system, unlocking can be carried out quickly in the event of failure of the vehicle electrical system in an emergency running state.

An access arrangement for a vehicle comprises a vehicle-side unlocking device for actuating an unlocking mechanism and a vehicle-side rechargeable electrical energy storage device configured to supply the unlocking device with energy. Furthermore, it comprises a vehicle-side charged electrical energy storage device configured to charge the vehicle-side rechargeable electrical energy storage device. The access arrangement further comprises a charging control device for controlling the charging process of the vehicle-side rechargeable electrical energy storage device by the vehicle-side charged electrical energy storage device. Finally, it comprises a vehicle-side authentication device for checking an access authorization and for controlling the charging control device depending on the checking of the access authorization. By providing an energy storage device which is already charged, independent of the vehicle electrical system, unlocking can be carried out quickly in the event of failure of the vehicle electrical system in an emergency running state.

A vehicle door activation device includes a housing, an activation button connected with the housing to define a first chamber and a second chamber, a back-up battery stored in the first chamber, and a semiconductor chip stored in the second chamber. The semiconductor chip, in response to a voltage supplied to a vehicle door being less than a threshold, causes the back-up battery to supply power to the vehicle door, and, in response to a tag being within a proximity from the semiconductor chip and an actuation of the activation button, causes the vehicle door to unlock.

A vehicle door activation device includes a housing, an activation button connected with the housing to define a first chamber and a second chamber, a back-up battery stored in the first chamber, and a semiconductor chip stored in the second chamber. The semiconductor chip, in response to a voltage supplied to a vehicle door being less than a threshold, causes the back-up battery to supply power to the vehicle door, and, in response to a tag being within a proximity from the semiconductor chip and an actuation of the activation button, causes the vehicle door to unlock.

An emergency actuating device for a closing system of a movable part of a vehicle, in particular of a door, sliding door, flap or tailgate, having at least one energy store, a communication unit for wireless communication with an ID transponder, and an electronics unit for activating a lock of the movable part, whereby the lock of the movable part can be transferred from a locking position into an unlocking position or vice versa.

Features are disclosed for sealing system which is dynamically activated based on a vehicle's location within a geofence via a custom access application. The seal generates current location information. The current location information is compared to location permissions indicating time or place where the seal may be disabled. If the current location corresponds to an authorized unsealing location, the seal may disengage to allow access to the vehicle.

Features are disclosed for sealing system which is dynamically activated based on a vehicle's location within a geofence via a custom access application. The seal generates current location information. The current location information is compared to location permissions indicating time or place where the seal may be disabled. If the current location corresponds to an authorized unsealing location, the seal may disengage to allow access to the vehicle.

An access arrangement for a vehicle comprises a vehicle-side unlocking device for actuating an unlocking mechanism and a vehicle-side rechargeable electrical energy storage device configured to supply the unlocking device with energy. Furthermore, it comprises a vehicle-side charged electrical energy storage device configured to charge the vehicle-side rechargeable electrical energy storage device. The access arrangement further comprises a charging control device for controlling the charging process of the vehicle-side rechargeable electrical energy storage device by the vehicle-side charged electrical energy storage device. Finally, it comprises a vehicle-side authentication device for checking an access authorization and for controlling the charging control device depending on the checking of the access authorization. By providing an energy storage device which is already charged, independent of the vehicle electrical system, unlocking can be carried out quickly in the event of failure of the vehicle electrical system in an emergency running state.

An access arrangement for a vehicle comprises a vehicle-side unlocking device for actuating an unlocking mechanism and a vehicle-side rechargeable electrical energy storage device configured to supply the unlocking device with energy. Furthermore, it comprises a vehicle-side charged electrical energy storage device configured to charge the vehicle-side rechargeable electrical energy storage device. The access arrangement further comprises a charging control device for controlling the charging process of the vehicle-side rechargeable electrical energy storage device by the vehicle-side charged electrical energy storage device. Finally, it comprises a vehicle-side authentication device for checking an access authorization and for controlling the charging control device depending on the checking of the access authorization. By providing an energy storage device which is already charged, independent of the vehicle electrical system, unlocking can be carried out quickly in the event of failure of the vehicle electrical system in an emergency running state.