The invention relates to a sensor device (100) for the n capacitive detection of a user action in a vehicle (1), with a sensor element (110), which is configured as an electric line element, wherein the sensor element (110) comprises: an electrically conducting outer conductor element (112), at least one insulator element (120) for the electric insulation of the outer conductor element (112), an evaluation connection adaptation (20) on the outer conductor element (112) for the electrically-conducting connection of the outer conductor element (112) to an evaluation device (210) of the vehicle (1), whereby the detection can be performed. A test connection adaptation (10) in provided on the outer conductor element (112), in order to test a functional test of the sensor device (100) based upon an electric circuit with the outer conductor element (112).

A vehicle includes a body and front and rear doors having front and rear powered latches, front and rear anti-pinch sensors, and front and rear electrically-powered door openers. The vehicle further includes a controller that is configured to receive an unlatch signal from unlatch sensors/switches and generate a signal to unlatch the front and rear powered latches and actuate the front and rear door openers after the front and rear powered latches are unlatched. The controller may also be configured to actuate the rear door opener to retain the rear door in an open position when the front pinch sensor detects a hand to thereby prevent pinching.

A vehicle includes a body and front and rear doors having front and rear powered latches, front and rear anti-pinch sensors, and front and rear electrically-powered door openers. The vehicle further includes a controller that is configured to receive an unlatch signal from unlatch sensors/switches and generate a signal to unlatch the front and rear powered latches and actuate the front and rear door openers after the front and rear powered latches are unlatched. The controller may also be configured to actuate the rear door opener to retain the rear door in an open position when the front pinch sensor detects a hand to thereby prevent pinching.

A bus includes a vehicle body, a plurality of capacitive sensors mounted along a perimeter of the vehicle body, wherein one of the capacitive sensors capacitively couples to an electrically conductive object proximal to the portion of the vehicle body such that the capacitance of the one of the capacitive sensors changes, and a controller coupled to the capacitive sensors, the controller being configured to alert an operator of the bus when the object is coupled to the at least one capacitive sensor.

A bus includes a vehicle body, a plurality of capacitive sensors mounted along a perimeter of the vehicle body, wherein one of the capacitive sensors capacitively couples to an electrically conductive object proximal to the portion of the vehicle body such that the capacitance of the one of the capacitive sensors changes, and a controller coupled to the capacitive sensors, the controller being configured to alert an operator of the bus when the object is coupled to the at least one capacitive sensor.

It is provided an adjustment device for the power-operated adjustment of a vehicle part that is adjustable on a vehicle along an adjustment path between a closed position and at least one open position, comprising a sensor device by means of which an obstacle in the adjustment path of the vehicle part can be detected in a contactless way and upon detection of an obstacle in the adjustment path of the vehicle part an obstacle signal can be generated, and comprising an electronic control device coupled to at least one drive for the adjustment of the vehicle part, at least one actuating element for generating an adjustment signal and the sensor device, by means of which on the basis of the adjustment signal the at least one drive can be actuated for the power-operated adjustment of the vehicle part.

It is provided an adjustment device for the power-operated adjustment of a vehicle part that is adjustable on a vehicle along an adjustment path between a closed position and at least one open position, comprising a sensor device by means of which an obstacle in the adjustment path of the vehicle part can be detected in a contactless way and upon detection of an obstacle in the adjustment path of the vehicle part an obstacle signal can be generated, and comprising an electronic control device coupled to at least one drive for the adjustment of the vehicle part, at least one actuating element for generating an adjustment signal and the sensor device, by means of which on the basis of the adjustment signal the at least one drive can be actuated for the power-operated adjustment of the vehicle part.

A system for operating an automatically movable panel that forms a portion of an exterior of a vehicle, and provides access to an interior of the vehicle; a motivator connected to the panel and moving the panel through a range of motion; a proximity sensor; and a control module disposed within the motor vehicle, the control module having a processor configured to execute control logic, the motivator and the proximity sensor in electronic communication with the control module. The control logic including: determining a position of the panel; receiving a plurality of passive inputs; selectively utilizing the motivator to move the panel through the range of motion based on the passive inputs; utilizing the proximity sensor to selectively determine when to initiate movement of the movable panel through the range of motion with the motivator; and informing a motor vehicle occupant of movement of the panel via a human-machine interface.

A bus includes a vehicle body, a plurality of doors, a nosing seal, at least one sensor disposed inside the nosing seal, wherein the at least one sensor capacitively couples to an electrically conductive moving object proximal to the nosing seal such that the capacitance of the at least one sensor changes, and a controller coupled to the at least one sensor, the controller analyzing the sensing by the at least one sensor and senses a non-smooth signal from the at least one sensor and determines that an obstruction is present, senses signal fluctuation from the at least one sensor is not monotonic and determines that an obstruction is present, senses that the one of the doors has not closed after a predetermined time period and determines that the obstruction is present, senses that one of the doors has stalled and determines that the obstruction is present, the controller being configured to alert an operator of the bus when the obstruction is present.

A bus includes a vehicle body, a plurality of doors, a nosing seal, at least one sensor disposed inside the nosing seal, wherein the at least one sensor capacitively couples to an electrically conductive moving object proximal to the nosing seal such that the capacitance of the at least one sensor changes, and a controller coupled to the at least one sensor, the controller analyzing the sensing by the at least one sensor and senses a non-smooth signal from the at least one sensor and determines that an obstruction is present, senses signal fluctuation from the at least one sensor is not monotonic and determines that an obstruction is present, senses that the one of the doors has not closed after a predetermined time period and determines that the obstruction is present, senses that one of the doors has stalled and determines that the obstruction is present, the controller being configured to alert an operator of the bus when the obstruction is present.