An inductive sensor assembly is used for detecting a change in position of an actuating element. The sensor assembly has: an LC resonant circuit having an inductive element (L) and a capacitive element (C); an excitation supply which is coupled to the LC resonant circuit in order to excite the LC resonant circuit with an excitation voltage (U); a decoupling element arranged between the excitation supply and the LC resonant circuit; and, an evaluation arrangement for evaluating the signal decreasing across the resonant circuit. An actuating assembly is also provided.

A control device relates to a vehicle having an automatically opening and/or automatically closing lid with at least one control switch in the vicinity of the lid and with a programmable electronic control unit. The control switch may be operated arbitrarily contactlessly in the form of a proximity sensor and when operated generates an operation request signal which is an input signal to the control unit. The control unit is configured in such a manner that defined environmental conditions may be evaluated for the detection of a risk of salinity and humidity and that, given the presence of a risk of salt and water, an appropriate adaptation may be made to the evaluation of the operation request signal. Preferably, at least one outside temperature below a predefined threshold and information indicating the presence of moisture are defined as the environmental conditions to be evaluated for detecting the risk of salt and water.

A vehicular exterior door system includes a door handle assembly configured for mounting at a door handle region of a vehicle door of a vehicle. The door handle assembly includes a pocket lighting module comprising at least one light emitting diode operable to emit light to illuminate a pocket region of the door handle region. The door handle assembly includes a plurality of touch sensors linearly arranged along a handle portion and generating sensor data based on detection of touch at the respective touch sensor. The vehicular exterior door system, with the door handle assembly mounted at the door handle region, and responsive to processing at the processor of the sensor data generated by individual touch sensors of the plurality of touch sensors, determines a touch event at the door handle assembly and, responsive to the determined touch event, unlocks the vehicle door.

The invention concerns a door handle (10) for a vehicle (1), in particular an external door handle (10) for a movable part (2) of the vehicle (1), comprising: a cavity (11) which is at least partially formed by a housing (12) of the door handle (10), and an electronic unit (20), which is received in the cavity (11),
wherein the electronic unit (20) comprises a carrier unit (21), in particular an electric circuit board, such as a printed circuit board or a printed circuit, an electric connector unit (30) which comprises at least one electrically conductive connector element (31), in particular comprising at least one contact pin,
wherein the at least one connector element (31) is fixed, in particular soldered, welded or glued, to the carrier unit (21) in a material-locking manner.

A method of operating an entry system of a motor vehicle includes monitoring a battery voltage and the entry system continuously using a control circuit of the latch assembly in a non-emergency mode. Power is provided to the control circuit in the event of a loss of power from a main power source using a backup energy source of the control circuit. The method includes transitioning to an emergency mode in response to determining loss of power from the main power source or failure of the component of the entry system. An actuation group associated with the latch assembly is operated with the control circuit using power from the backup energy source of the control circuit in response to determining that actuation from a plurality of pins of a mechanical emergency switch assembly indicates a command from a user to unlatch the closure member in the emergency mode.

A latch assembly for a closure system having first and second closure members each movable between open and closed positions and method of operation are provided. The assembly includes a primary latch mechanism that has a primary actuation group to control actuation of the first closure member. The latch assembly also includes a secondary latch mechanism that has a secondary actuation group operable to control actuation of the second closure member. A controller unit is coupled to the primary and secondary actuation groups and determines which of the primary actuation group and the secondary actuation group to actuate and controls actuation of at least one of the primary actuation group and the secondary actuation group accordingly. The primary and secondary latch mechanisms, primary and secondary actuation groups, and controller unit are all integrated into the housing.

A door handle assembly for a motor vehicle door may include first and second housing components configured to be secured together to form a housing with inner surfaces of the components facing one another, the housing configured to be mounted to the motor vehicle door to define a door handle, a first sensor is disposed along a first detection surface defined by at least a portion of an outer surface of the housing, and a second sensor is disposed along a second detection surface defined by at least another portion of the outer surface of the housing, wherein signals produced by the first and second sensors are configured to enable any of locking, unlocking, latching, unlatching, automatically opening and automatically closing of the motor vehicle door.

A vehicle door control device 1 according to the present invention relates to a vehicle door control device 1 for controlling opening and closing of a door of a vehicle, wherein the vehicle door control device 1 comprises: a handle member 30 attached to the door; an entry detection sensor 31 for detecting entry of an object into a space between the door and the handle member 30; an external force detection sensor 32 for detecting application of an external force to the handle member 30; and a circuit portion 4 connected to the entry detection sensor 31 and the external force detection sensor 32, the circuit portion 4 releasing a latch of the door when the external force detection sensor 32 detects the application of the external force and the entry detection sensor 31 detects the entry of the object.

Provided is a vehicular door outer handle device including a handle body having a housing recess, a handle cover covering the handle body from the outside, a base member fixed to a vehicle door, and a support arm connected to one end in a longitudinal direction of the handle body and rotatably supported by the base member via a support shaft. A slit through which a harness connected to an electronic component housed in the housing recess is inserted is formed in the one end of the handle body and in the support arm. Although there is provided the slit that facilitates assembly work of the harness, reduction in strength is prevented while avoiding an increase in the number of parts. A handle cover 14 is integrally provided with a first reinforcing portion 55 that is fitted into a slit 51 so as to contact, or to approach and face, both side surfaces of the slit 51.

An opening switch for a vehicle having a decorative cover assembly, a sensor housing region, and a microelectromechanical (MEMS) sensor mounted in the sensor housing region. The decorative cover assembly has an inner surface, an outer surface, an anchor portion, and a deflection portion. When contact from a vehicle user occurs at the deflection portion in the decorative cover assembly, a microdeflection occurs. The microdeflection has a microdeflection apex, and the microdeflection apex is spaced from other surfaces in the sensor housing region when the contact from the user occurs at the deflection portion in the decorative cover assembly. The MEMS sensor is configured to generate an output signal that is indicative of a force of the contact from the user. The force integrated switch can include haptic feedback and/or backlighting.