Where: the resonance frequency of an LCR resonance circuit 20 is f1 and the determination voltage signal is V1, when an object is not in the proximity of a sensor electrode 22; the resonance frequency of the LCR resonance circuit 20 is f2 and the determination voltage signal is V2, when a human body is in proximity of the sensor electrode 22; and the resonance frequency of the LCR resonance circuit 20 is f3 and the determination voltage signal is V3, when water is in the proximity of the sensor electrode 22, having the relationship

f1>f2>f3, a control unit 42 controls a high-frequency signal S0 so as to satisfy the relationship V2>V1>V3, and a human body or water being in the proximity of the sensor electrode 22 is distinguished.

In a proximity sensor including a circuit board on which a detection circuit is printed, and a first drive electrode and a lock electrode mounted on one surface of the circuit board and electrically connected to the detection circuit, the first planar drive electrode and the planar lock electrode are formed in a standing manner on one surface of the circuit board to face each other. A second planar drive electrode and a planar unlock electrode are formed in a standing manner on the other surface of the circuit board to face each other. The proximity sensor is used in a keyless entry device of vehicle, and the controller that controls driving of an actuator for locking or unlocking a vehicle door based on detection of the proximity sensor determines that the proximity sensor is turned on when decrease in output of the proximity sensor exceeds a predetermined threshold value.

The invention relates to a method for controlling access to at least one function of a motor vehicle (10), comprising:—an action step during which an electronic control unit (11) on board the motor vehicle detects an interaction of a user with the motor vehicle,—a verification step during which the electronic control unit verifies that the user is authorised to access said function, and—an authorisation step during which the electronic control unit authorises access to said function. According to the invention, said verification step comprises sending of a query message by said electronic control unit to a mobile terminal (20) carried by the user or by a person accompanying the user, and said authorisation step is only implemented if, in response to the query message, the electronic control unit receives an access-right validation message from the mobile terminal.

An electronic latch for a motor vehicle closure system with an electronic control circuit including a handle switch reading circuit for a two-pin handle switch and a method of operating the handle switch reading circuit are disclosed. The electronic control circuit includes a control unit. The handle switch reading circuit is controlled by the control unit for coupling with a handle switch subassembly. The handle switch reading circuit is adapted to supply an AC voltage to the handle switch subassembly and produce an output voltage waveform corresponding to the charging and discharging of a handle capacitor of the handle switch subassembly and in response to a handle switch of the handle switch subassembly being operated. The handle switch reading circuit determines a position of the handle switch and presence of faults in the handle switch reading circuit and the handle switch subassembly based on the output voltage waveform.

An electronic latch for a motor vehicle closure system with an electronic control circuit including a handle switch reading circuit for a two-pin handle switch and a method of operating the handle switch reading circuit are disclosed. The electronic control circuit includes a control unit. The handle switch reading circuit is controlled by the control unit for coupling with a handle switch subassembly. The handle switch reading circuit is adapted to supply an AC voltage to the handle switch subassembly and produce an output voltage waveform corresponding to the charging and discharging of a handle capacitor of the handle switch subassembly and in response to a handle switch of the handle switch subassembly being operated. The handle switch reading circuit determines a position of the handle switch and presence of faults in the handle switch reading circuit and the handle switch subassembly based on the output voltage waveform.

A smart entry system includes an unlocking sensor, a locking sensor, a smart control unit, and a central control unit. The unlocking sensor detects an operator's intention of unlocking a door. The locking sensor detects the operator's intention of locking the door. The smart control unit confirms whether the operator is an authorized user. The central control unit opens or closes a door lock when the unlocking sensor or the locking sensor is operated and the operator is a regular operator. The central control unit opens the door lock when the unlocking sensor and the locking sensor are operated substantially at the same time while the door lock is in a closed state.

The invention relates to a device (10) for data acquisition and measurement acquisition for a door handle (2) of a vehicle (1), said device comprising: at least one communications device (11), in particular an NFC device (11) for NFC data exchange with an external communications terminal (3); and at least one sensor device (12) for measuring (20) a change in capacitance.

According to the invention, just one voltage device (14) is provided for common adjustment of the voltages of the at least one communications device (11) and the at least one sensor device (12).

A control device includes: an input unit to which a first signal is input from a detection unit detecting an operation for an opening-closing body; and a control unit generates a second signal for operating the opening-closing body, based on the first signal, wherein the control unit can be switched between a first power consumption mode and a second power consumption mode in which less power is consumed, and the control unit can be switched between a first state where the second power consumption mode is switched to the first power consumption mode, based on a first condition, and a second state where the second power consumption mode is switched to the first power consumption mode, based on a second condition on which the second power consumption mode is less likely to be switched to the first power consumption mode.

A vehicle door handle includes a sensor assembly for detecting an operation request. The door handle is fixed and actuates an electric lock. The sensor assembly includes a first capacitive sensor arranged in the door handle and oriented towards an inner side of the handle. It monitors a first handle section gripped when actuating the handle. Second and third sensors are arranged along an axial extension of the handle. The second sensor is oriented towards an outer side of the handle and monitors a touching from the outer side in a second handle section. The third sensor is oriented towards the inner side of the handle and monitors a touching from the inner side. The electronic control and evaluation device generates an opening signal when both the capacitive sensor detects a gripping of the door handle and the second sensor and the third sensor simultaneously each detect a touching.

A method for detecting actuation of a handle of a motor-vehicle opening panel-vehicle, including the steps of continuously generating the request to unlock signal, detecting an increase in the value of the request to unlock signal beyond a first predetermined detection threshold representative of the presence of a hand of a user on the handle, detecting a decrease in the value of the request to unlock signal below a second predetermined detection threshold representative of the user pulling on the handle, consecutively to the detection of the decrease in the value of the request to unlock signal below the second detection threshold, triggering a time counter, stopping the time counter at the end of a predetermined “confirmation time”, and validating the detection of a request to unlock the opening panel if the value of the request to unlock signal remained greater than a third predetermined threshold throughout the confirmation time.