In a vehicle, a vehicle body-side apparatus is configured to perform a main area determination and an auxiliary area determination. The main area determination determines whether a portable terminal is present in a main area based on a first reception intensity measured by the vehicle body-side apparatus in a wireless signal from the portable terminal. The auxiliary area determination determines whether the portable terminal is present in an auxiliary area based on a second reception intensity measured by a vehicle tire-side apparatus in a wireless signal from the portable terminal.

Disclosed is a method of detecting the approach and/or contact of a user's hand to a door handle, the handle having a first outer surface oriented toward the vehicle and a second outer surface oriented toward the user, the handle including at least one detection electrode and an additional electrode, positioned face to face in advance. The method includes: the two electrodes are electrically connected to the same power supply source; a first capacitance value is measured at the terminals of the detection electrode; a second capacitance value is measured at the terminals of the additional electrode; and the first and second values are compared, during a measurement period, with one another and/or with a predetermined threshold value, in order to detect the approach of a user's hand toward the first outer surface or toward the second outer surface and/or the contact of his hand with one of these surfaces.

A control unit 20, including a circuit board and a switch unit, is arranged in a housing space in a door handle. The switch unit has a switch component, which is fastened to the circuit board, a hard switch case, which covers the switch component, a soft pushbutton, which operates the switch component, and a hard cover member, which is fastened to the switch case. The pushbutton has a pushing part in the shape of a cap, a flange, which extends from the bottom end of the pushing part, and an operation projection, which is inserted into an insertion opening in a roof. The switch case and the pushbutton are united by the cover member, and the flange is brought into close contact with the roof all the way therearound, by the cover member.

Methods and systems for opening an access point of a vehicle. A system and a method may involve receiving wirelessly a signal from a remote controller carried by a user. The system and the method may further involve receiving audio or video data indicating the user approaching the vehicle. The system and the method may also involve determining an intention of the user to access an interior of the vehicle based on the audio or video data. The system and the method may also involve opening an access point of the vehicle responsive to the determining of the intention of the user to access the interior of the vehicle.

Methods and systems for opening an access point of a vehicle. A system and a method may involve receiving wirelessly a signal from a remote controller carried by a user. The system and the method may further involve receiving audio or video data indicating the user approaching the vehicle. The system and the method may also involve determining an intention of the user to access an interior of the vehicle based on the audio or video data. The system and the method may also involve opening an access point of the vehicle responsive to the determining of the intention of the user to access the interior of the vehicle.

The invention is directed to a vehicle door handle assembly (10) comprising: a rotatable flap (20), said flap (20) extending along and configured to rotate about a rotation axis (Y), a mechanical actuation switch (28) generating an electrical signal to be sent to a vehicle door controller to release the vehicle door, rotation of the rotatable flap (20) causing the activation of said mechanical actuation switch (28), and a locking mechanism generating an electrical signal to be sent to a vehicle door controller to lock the vehicle door comprising a lock switch button,

The handle assembly (10) comprises an elongated base plate (14) made of one piece extending along the rotation axis (Y) of the flap (20). The flap (20) is hinged on the base plate (14). The base plate (14) encases the mechanical actuation switch (28) and the lock switch button (48). The mechanical actuation switch (28) and the lock switch button (48) are disposed on either side of the flap (20).

The invention is directed to a vehicle door handle assembly (10) comprising: a rotatable flap (20), said flap (20) extending along and configured to rotate about a rotation axis (Y), a mechanical actuation switch (28) generating an electrical signal to be sent to a vehicle door controller to release the vehicle door, rotation of the rotatable flap (20) causing the activation of said mechanical actuation switch (28), and a locking mechanism generating an electrical signal to be sent to a vehicle door controller to lock the vehicle door comprising a lock switch button,

The handle assembly (10) comprises an elongated base plate (14) made of one piece extending along the rotation axis (Y) of the flap (20). The flap (20) is hinged on the base plate (14). The base plate (14) encases the mechanical actuation switch (28) and the lock switch button (48). The mechanical actuation switch (28) and the lock switch button (48) are disposed on either side of the flap (20).

The invention relates to a safety system for a door in a motor vehicle, comprising an electronic unit that includes at least one first and a second sensor. Each sensor has its own monitoring zone on the motor vehicle door. The safety system further comprises a lock which is arranged on the motor vehicle door and can be switched between a locked position and an unlocked position, as well as a user-held identifier which can be brought into data communication with a transceiver unit in the motor vehicle for authentication purposes. The electronic unit is designed in such a way as to be able to generate a trigger signal by having the user execute at least one defined movement pattern within the monitoring zones, thus allowing the position of the lock to be switched.

The invention relates to a safety system for a door in a motor vehicle, comprising an electronic unit that includes at least one first and a second sensor. Each sensor has its own monitoring zone on the motor vehicle door. The safety system further comprises a lock which is arranged on the motor vehicle door and can be switched between a locked position and an unlocked position, as well as a user-held identifier which can be brought into data communication with a transceiver unit in the motor vehicle for authentication purposes. The electronic unit is designed in such a way as to be able to generate a trigger signal by having the user execute at least one defined movement pattern within the monitoring zones, thus allowing the position of the lock to be switched.

A door handle assembly for a motor vehicle includes a handle carrier, a handle part that is arranged such that it is strake-flush with a door in a resting position and projecting out of the door in an actuation position, a lever element that moves the handle part, and a transmission element. For an electrically operated normal operation, the transmission element is designed such that it can move in an entirely electrically driven manner into a first normal operation position, in which the transmission element moves the handle part into the actuation position via the lever element. The handle part can be moved and actuated in order to open the door, even in the event of a failure of the motor drive. For this purpose, for a currentless emergency operation, the transmission element is designed such that it can move from an initial position into an emergency operation position, in which the transmission element swivels the lever element at least in order to move the handle part into the actuation position.