A door pinch detection system includes a pinch detector, a mount for the pinch detector, and an actuator for the mount. The pinch detector is configured to detect contact with objects adjacent the pinch detector. The mount is mountable to a vehicle door including a peripheral flange, and the actuator is mountable to the vehicle door and connectable between the vehicle door and the mount. The mount is configured to support the pinch detector for movement between an inboard position and an outboard position, in which the pinch detector is respectively located along the inside and the outside of the peripheral flange and configured to detect contact between the inside and the outside of the peripheral flange and objects. The actuator is operable to activate the mount to move the pinch detector between the inboard position and the outboard position.

A door assist system for a vehicle is disclosed. The system comprises an actuator configured to control a position of the door about a hinge assembly. An interference sensor forms a portion of a door opening seal and is configured to detect an obstruction in a plurality of detection regions. The system further comprises a controller configured to control the actuator in response to a detection signal from the interference sensor.

An illustrative example method of operating a capacitive vehicle entry control device includes: determining a plurality of capacitance values of the vehicle entry control device during a measurement period; determining an average capacitance of the plurality of capacitance values; determining whether the determined average capacitance exceeds an average threshold; determining a range of the plurality of capacitance values; determining whether the determined range exceeds a range threshold; and initiating a vehicle entry process when the determined average capacitance exceeds the average threshold or when the determined range exceeds the range threshold.

Some embodiments of the disclosed subject matter are directed to a vehicle door that includes a door frame and a door trim with pinch sensor located adjacent the door frame. A door harness coupler can hang within the door frame prior to assembly of the door, and can be connected to a pinch sensor coupler adjacent the door trim to electrically connect the pinch sensor to a controller and/or door actuator. Thus, the pinch sensor can be installed at the end of a door assembly line.

Some embodiments of the disclosed subject matter are directed to a vehicle door that includes a door frame and a door trim with pinch sensor located adjacent the door frame. A door harness coupler can hang within the door frame prior to assembly of the door, and can be connected to a pinch sensor coupler adjacent the door trim to electrically connect the pinch sensor to a controller and/or door actuator. Thus, the pinch sensor can be installed at the end of a door assembly line.

A first end of an insert fills up a space of a hollow part of a protector, and a second end includes an insulator to insulate a first wire connection part where a first leg of a resistor is piled on a first core wire from a second wire connection part where a second leg of the resistor is piled on a second core wire. Die-molding material covers the insulator, the first and second core wires, the resistor, the first and second legs, and the first and second wire connection parts. The insulator has a tabular shape, and the insulator has left and right side ends exposed from a part covered with the die-molding material. The insert includes a second protrusion on a connection part between the first and second ends of the insert. The second protrusion is closer to an inner side part than an inner surface of the insulator.

A first end of an insert fills up a space of a hollow part of a protector, and a second end includes an insulator to insulate a first wire connection part where a first leg of a resistor is piled on a first core wire from a second wire connection part where a second leg of the resistor is piled on a second core wire. Die-molding material covers the insulator, the first and second core wires, the resistor, the first and second legs, and the first and second wire connection parts. The insulator has a tabular shape, and the insulator has left and right side ends exposed from a part covered with the die-molding material. The insert includes a second protrusion on a connection part between the first and second ends of the insert. The second protrusion is closer to an inner side part than an inner surface of the insulator.

A vehicle includes a body and a door coupled to the body. The door is operable between opened and closed positions. A cinch assembly is operably coupled to the door. A door seal is positioned along at least a portion of a door opening, wherein the door seal includes a first conductor and a second conductor positioned therein. The first and second conductors are dielectrically isolated and cooperate to generate a capacitive signal. A controller is configured to monitor the capacitive signal and control the cinch assembly in response to the capacitive signal.

A vehicle includes a body and a door coupled to the body. The door is operable between opened and closed positions. A cinch assembly is operably coupled to the door. A door seal is positioned along at least a portion of a door opening, wherein the door seal includes a first conductor and a second conductor positioned therein. The first and second conductors are dielectrically isolated and cooperate to generate a capacitive signal. A controller is configured to monitor the capacitive signal and control the cinch assembly in response to the capacitive signal.

A vehicle includes a body and a door coupled to the body. The door is operable between opened and closed positions. A cinch assembly is operably coupled to the door. A door seal is positioned along at least a portion of a door opening, wherein the door seal includes a first conductor and a second conductor positioned therein. The first and second conductors are dielectrically isolated and cooperate to generate a capacitive signal. A controller is configured to monitor the capacitive signal and control the cinch assembly in response to the capacitive signal.