One embodiment of the present invention is a transparent sensing device comprising: a transparent substrate; a microsensor arranged on the transparent substrate and having an area of 250,000 μm.sup.2 or less; a plurality of wirings connected to the microsensor; and a sealing layer covering the microsensor arranged on the transparent substrate and the plurality of wirings. The sealing layer is a transparent resin having a water absorption rate of 1% or less after curing. Therefore, it is possible to provide a transparent sensing device in which migration of wirings is suppressed and which has excellent reliability.

A display device for representing information on a display includes at least one display module and at least one cover glass, wherein mechanical insulation is arranged between the display module and the cover glass, and at least one actuator is designed to induce a movement of the display.

An electronic device includes a display panel including a display surface on a front; a front panel surrounding the display panel; a circuit board that is disposed on a front side of a lower portion of the display panel and housed in the front panel; and a holder provided between the front of the display panel and a back of the circuit board. The holder includes a plurality of grooves each continuously extending in an up-down direction on a back of the holder facing the front of the display panel. The plurality of grooves are formed so as to be connected to each other. The front panel is formed with a through hole facing lower ends of the grooves.

A retractable video screen has switchable opaque films laminated onto a transparent display panel. A transport unit at a headliner of a passenger cabin includes a motorized carrier configured to move the video screen to 1) a stowed position in which the video screen is retained horizontally in the transport unit, 2) a forward position where the video screen hangs vertically from a forward end of the transport unit, and 3) a rearward position where video screen hangs vertically from a rearward end of the transport unit. A first opaque film is opaque and a second opaque film is clear when the carrier is forward, so that the display panel is viewable from the seating area. The second opaque film is opaque and the first opaque film is clear when the carrier is rearward, so that the display panel is viewable from outside the vehicle through the liftgate opening.

The invention relates to an operating device for a vehicle, comprising a display with a touch-sensor system for inputting a command and additionally a retaining device which retains the display. The retaining device has a base face and a free area which is defined by support elements protruding from the base face. The operating device is additionally provided with at least one actuation sensor for detecting a bend of the display upon being manually actuated and an analysis unit which is connected to the touch sensor system and the at least one actuation sensor for analyzing the signals of the touch sensor system and the at least one actuation sensor.

Please substitute the new Abstract submitted herewith for the original Abstract: A vehicle component includes a display element and/or operating element integrated into a vehicle component surface. The display element and/or operating element has a light source, a base support, a mask and a surface layer. The surface layer is made of a material that becomes transparent when activated.

A charging port cover and/or a fuel cap module for a motor vehicle for receiving or attaching at least one interface, which is used for charging and/or refueling a motor vehicle-side energy accumulator. The charging port cover and/or the fuel cap module also serves to fasten and mount at least one device having light sources. The at least one device illuminates both the charging port cover and/or the fuel cap module and a current charge level and/or a current fuel level of the motor vehicle-side energy accumulator. The charging port cover and/or the fuel cap module has a first opening and a second opening adjacent thereto. The first opening and the second opening are oriented such that emitted or deliverable light of the mounted at least one device can emerge from the first opening in a direction of an operator of the motor vehicle and from the second opening in a direction of the at least one interface for charging and/or refueling the motor vehicle-side energy accumulator.