A device (D) for “hands-free” unlocking/locking of a door of a motor vehicle (V), said device (D) being intended to be placed on board said vehicle (V), and comprising a radiofrequency antenna (A) and radiofrequency transmission/reception means (50) capable of authenticating portable equipment (SD) of a user, at least one capacitive sensor for detecting the approach and/or the contact (C) of a member of the user in a predetermined zone (Z), an electronic unit (40) controlling the unlocking of the door, said device (D) being characterized in that it further comprises an emergency access device (E) comprising:

a) a body (1);
b) a graspable pull member (3) connected to a lock actuator (4) and movable between: a retracted position, in which the pull member (3) is retracted in the body (1); and a deployed position, in which the pull member (3) projects outside the body (1);
c) a retention pin (6) sliding transverse to the pull member (3) and adapted to assume: a blocking position, in which it is disposed against the pull member (3), keeping the pull member (3) in its retracted position, and a position for releasing the pull member (3);
d) an electric ejector (8) adapted to control the sliding of the retention pin (6);
e) a control unit (12) for the electric ejector (8) adapted to control the electric ejector (8) in two modes: an unblocking mode, in which the electric ejector (8) drives the retention pin (6) from its blocking position to its release position; and a vibration mode, in which the electric ejector (8) oscillates the retention pin (6) between its blocking position and an intermediate position between the blocking position and the release position,
the control unit (12) controlling the electric ejector (8) in vibration mode as a function of an authentication status of the equipment of the user, the device (D) comprising a chain (100) for transferring vibrations between the electric ejector (8) and a contact surface (S1) of the member of the user, in order to notify the user of the authentication status.

An exterior door handle for a vehicle particularly for an activation of an electric lock of the vehicle comprising: a door handle body with a wall, wherein the door handle body is configured such that an activation action is performable by a user at the door handle body in the deformation area, at least one inductive activation means which is arranged in the deformation area, at least one sensor device arranged within the door handle body for inductivity measurements at the activation means,
wherein the door handle body is at least configured elastically deformable in the deformation area and
the sensor device for the detection of the activation action is arranged spaced apart to the activation means such that the deformation of the door handle body is detectable by the inductivity measurement.

The present invention relates to an automobile door handle (10), comprising: an interior fitting (2), said interior fitting (2) comprising at least one metal or metallized element; an intermediate means (11) connecting said interior fitting (2) to a reference potential; an attachment means (13, 14) for retaining said interior fitting (2) on said door handle (10); said door handle (10) being characterized in that said intermediate means (11) and said attachment means (13, 14) are arranged such that the attachment of said interior fitting (2) by means of said attachment means (13, 14) involves connecting said interior fitting (2) to said reference potential.

The present invention relates to a capacitive presence sensor (1) arranged in the gripping lever (L) of a handle of an openable body section (2) of a motor vehicle (V) characterised in that it comprises: a printed circuit (10) including a first surface (101) and a second surface (102), an electrode (E1) including a surface which extends along said first surface (101) and a second electrode (E2) including a surface which extends along said second surface (102); and also in that it comprises: a guard plane (13) made up of a conductive track arranged between the first electrode (E1) and the second electrode (E2), passing through the body (e) of said printed circuit (10) and comprising a first printed surface (130) extending along said first surface (101) of the printed circuit (10) and a second printed surface (131) extending along said second surface of the printed circuit (10).

A touch and gesture pad for a swipe/tap entry verification system and a method of operating the touch and gesture pad are disclosed. The touch and gesture pad includes a housing that defines a compartment. The touch and gesture pad includes a wiring connector for attachment to a wiring harness to provide power and communication with a processing unit. A PCB is disposed in the compartment. A plurality of IR TOF sensors are disposed on and electrically connected to the PCB for sensing gestures and touches to the touch and gesture assembly. The plurality of IR TOF sensors each includes a transmitter for transmitting an infrared beam and a receiver for receiving the infrared beam after reflection from an object near one of the plurality of IR TOF sensors and for outputting an IR TOF signal to the processing unit indicating touches or gestures.

An exit device according to one embodiment includes a plurality of sensors and an electronic dogging mechanism. The exit device is configured to locally analyze sensor data to determine the security state of the exit device, report data to a management system via a wireless communication channel established between the exit device and the management system, and receive and process instructions to perform an electronic dogging operation.

The present disclosure relates to an arrangement and a method for detecting the approach of an object and the teachings thereof may be embodied in a system for providing passive keyless vehicle access. A device may include: a communication device with an antenna to generate an electromagnetic field at regular intervals in a polling mode; and a processor to determine at least one operating parameter of the antenna whenever an electromagnetic field is generated, to compare the at least one determined operating parameter with a corresponding previously determined operating parameter, wherein a change in the at least one operating parameter indicates that an object is approaching the device, and to emit a signal if the comparison reveals that an operating parameter has changed.

An actuating device for a movable part, in particular a cover of a vehicle body opening, including at least one actuator and at least one electromechanical switching element, wherein the electromechanical switching element can be brought from a first mode into a second mode by means of the actuator, wherein in the first mode the electromechanical switching element senses an actuation by means of the actuator and in the second mode the electromechanical switching element releases the actuator such that the actuator can be moved toward the movable part, wherein the electromechanical switching element has an electroactive polymer and/or a piezoelectric element.

A power door system for a vehicle including a plurality of power-operated doors is provided. The system includes a passive remote entry device configured to emit a signal to one or more cooperating vehicle receivers and a controller configured to cause the power door system to open the at least one power-operated door when the passive remote entry device signal is received and an individual is detected in a predefined activation zone for a predetermined period of time. The system further includes a vehicle-mounted user detection device. The passive remote entry device may be selected from the group consisting of a key fob, a smart key, a key card, a cellular telephone or smartphone configured with a phone-as-a-key function, a Bluetooth®-activated and vehicle-recognized cellular telephone, a Bluetooth®-activated and vehicle-recognized smartphone, and a Bluetooth®-activated and vehicle-recognized smartwatch. Methods for controlling a power door system for a vehicle are described.

A spacer for a keyless-entry vehicle door handle of the type including mateable body and cover portions, and at least one electronic component disposed in an internal space of the handle defined by the body and cover portions, the at least one electronic component having first and second portions each arranged in proximity to one or the other of opposing interior surfaces of the body and cover portions of the handle. The spacer includes a compressible member disposed in the internal space of the handle, the compressible member having a body with opposite surfaces each facing one of the opposing interior surfaces of the body and cover portions of the handle, and recesses formed in each of the opposite surfaces, each recess dimensioned to receive therein one or the other of the first and second portions of the at least one electronic component. The compressible member is dimensioned so as to be compressed between the opposing interior surfaces of the body and cover portions of the handle so that, when the compressible member is compressed, each of the first and second portions of the at least one electronic component are urged into intimate contact with one or the other of the opposing interior surfaces of the body and cover portions of the handle.