Combined force and proximity sensing is disclosed. One or more sensors can concurrently sense a force applied by an object on a device surface and a proximity of the object to the surface. In an example, a single sensor can sense both force and proximity via a resistance change and a capacitance change, respectively, at the sensor. In another example, multiple sensors can be used, where one sensor can sense force via either a resistance change or a capacitance change and another sensor can sense proximity via a capacitance change.

An electronic device capable of processing a user input without direct contact is disclosed. The electronic device according to an embodiment of the present disclosure may include a plurality of contact electrodes having one end thereof contacted with a user's body respectively to be electrically connected to the user's body, at least one body contact interface electrically connected to the plurality of contact electrodes through the user's body and having a predetermined impedance value, and a signal processing unit connected to other end of the plurality of contact electrodes respectively to form a circuit through the plurality of contact electrodes, the at least one body contact interface, and the user's body, and determining a user input corresponding to an impedance characteristic of the circuit.

The disclosure makes an insulating component and a sensor bracket to be an integrally molded article, simplifies the manufacturing process and cuts down the cost. A sensor holder and a sensor bracket made of a resin are made to be an integrally molded article, wherein the sensor holder inside which a pair of electrodes are arranged, and the sensor bracket made of a resin which holds the sensor holder and is attached to a tailgate. During an operation of filling a molten resin to a cavity, a part of the sensor holder is melted by the molten resin, and thus integrating the sensor holder and the molten resin, therefore, the two components can be structurally and firmly integrated. Accordingly, a touch sensor unit which endures long-term use can be obtained.

A component for the passenger compartment of a motor vehicle includes a rigid supporting body, made of plastic material, an outer upholstery skin, made of plastic material, and a padding body made of foamed plastic material, which is set between the rigid body and the outer upholstery skin. The rigid body and the outer skin have portions formed by a polymeric material with carbon-based nanofillers, which have respective inner surfaces facing the padding body, which include one or more paths where said polymeric material with carbon-based nanofillers has been rendered electrically conductive by laser irradiation to define one or more electrical circuits, and one or more piezoresistive areas where the polymeric material has been rendered piezoresistive by laser irradiation to define one or more electrical switches, which can be activated by exerting a localized pressure on the outer upholstery skin.

Safety mat for safeguarding a technical installation, comprising a sensor, a rigid supporting body and an evaluation unit. The sensor has an active sensor area and a flexible connection region for contacting the sensor area. The flexible connection region is formed at a border of the active sensor area. The supporting body has a base with a top side and a side face which adjoins the said top side. The evaluation unit is arranged in the interior of the supporting body below the active sensor area and is configured to generate an output signal depending on the actuation of the active sensor area. The active sensor area covers the top side of the base of the supporting body completely, and the connection region of the sensor is folded around the side face through 180 and guided into the interior of the supporting body.

A shower head includes a fluid inlet configured to connect to a fluid source, a spray face having a plurality of fluid outlets, a fluid flow path from the fluid source to the spray face, and a diverter positioned in the fluid flow path which is configured to adjust the flow of fluid through the fluid flow path, the diverter being switchable between different spray configurations associated with different spray modes of the shower head. A user interface for selecting the shower spray mode is positioned on a peripheral portion of the spray face, the user interface including one or more touch-sensitive devices configured to receive one or more touch inputs from a user during operation of the shower head and configured to cause the diverter to switch from one spray configuration to another spray configuration in response to receiving the one or more touch inputs from the user.

A component for the passenger compartment of a motor vehicle includes a rigid supporting body, made of plastic material, an outer upholstery skin, made of plastic material, and a padding body made of foamed plastic material, which is set between the rigid body and the outer upholstery skin. The rigid body and the outer skin have portions formed by a polymeric material with carbon-based nanofillers, which have respective inner surfaces facing the padding body, which include one or more paths where said polymeric material with carbon-based nanofillers has been rendered electrically conductive by laser irradiation to define one or more electrical circuits, and one or more piezoresistive areas where the polymeric material has been rendered piezoresistive by laser irradiation to define one or more electrical switches, which can be activated by exerting a localized pressure on the outer upholstery skin.

A user equipment includes a capacitance detection apparatus, a control unit, a microphone, and a prompt apparatus, where the capacitance detection apparatus includes a touch control unit and a capacitance detection unit. The touch control unit is configured to sense a capacitance change of a touch area in which the touch control unit is located, and the microphone is located in the touch area. The capacitance detection unit is electrically connected to the touch control unit, and the capacitance detection unit measures a capacitance value of the touch area according to the capacitance change sensed by the touch control unit, and sends the capacitance value to the control unit, and the control unit determines whether the capacitance value is greater than or equal to a first preset value, and if yes, determines that the microphone is blocked, and controls the prompt apparatus to send prompt information. In this way, a problem of microphone blocking is thoroughly resolved, making an ongoing voice call smoother.

A component for the passenger compartment of a motor vehicle includes a rigid supporting body, made of plastic material, an outer upholstery skin, made of plastic material, and a padding body made of foamed plastic material, which is set between the rigid body and the outer upholstery skin. The rigid body and the outer skin have portions formed by a polymeric material with carbon-based nanofillers, which have respective inner surfaces facing the padding body, which include one or more paths where said polymeric material with carbon-based nanofillers has been rendered electrically conductive by laser irradiation to define one or more electrical circuits, and one or more piezoresistive areas where the polymeric material has been rendered piezoresistive by laser irradiation to define one or more electrical switches, which can be activated by exerting a localized pressure on the outer upholstery skin.

An article of clothing, in particular an article of work clothing, to be worn on the body has a trigger device. The trigger device comprises an electric trigger which has an actuation side facing away from the body, and a rigid protective element for the trigger, which at least partly laterally surrounds the trigger. In a side view of the trigger device the protective element extends at least up to the actuation side of the trigger facing away from the body in its trigger position.

Furthermore, a method for manufacturing a glove and a glove set are shown.