The operating unit for a device, in particular for a vehicle component, is provided with a housing (10) that has a control panel (12) and is provided for attaching in an apparatus, in particular a vehicle dashboard or vehicle center console, the control panel (12) being elastically mounted on the housing (10). Furthermore provided is an actuator (16) for mechanically exciting exclusively the control panel (12) when use of the control panel (12) is detected, the control panel forming the front side of a touch-sensitive touch panel (13). Finally, the operating unit also comprises a vibration compensation mass (20) that is mechanically excitable by the or by an actuator (16) when use of the control panel (12) is detected and is elastically mounted in and/or on the housing (10) and is movable to essentially compensate for a movement of the housing (10) when activating the actuator (16) that can mechanically excite the control panel (12). The operating unit has a backlit display (17) that has a display unit (32) and a backlight unit (34) separate therefrom. The backlight unit (34) or the display unit (32) can operate individually or together as vibration compensation masses (20).

A touch-sensitive control element for a vehicle interior comprises a partially transparent decorative part, a functional part and a light source, wherein the functional part is arranged between the decorative part and the light source and comprises a layer of several conductors. The functional part comprises at least one first region and at least one second region, wherein the light transmittance of said at least one second region is less than the light transmittance of said at least one first region.

A button device and a manipulation structure thereof are provided. The manipulation structure includes a plurality of brackets and a plurality of transparent keys respectively fixed to the brackets. Each bracket has an elastic segment, a fixing segment, and a placing segment, the latter two of which are connected to two opposite ends of the elastic segment. Each transparent key includes a press portion and an abutting portion. The press portion is fixed to the fixing segment of the corresponding bracket, and has a touch surface arranged away from the corresponding bracket. The abutting portion extends from the press portion along a displacement direction away from the touch surface, and a width of the abutting portion is less than that of the press portion. The touch surface of each of the transparent keys can be moved along the displacement direction to deform the corresponding bracket by being pressed.

An user interface device includes a lens with a top surface and a bottom surface, where the bottom surface includes at least one graphic that is visible through the top surface of the lens. The user interface device further includes a transparent circuit film with a top surface and a bottom surface, at least one light emitting diode (LED), at least one silver conductor, and a layer of transparent pressure-sensitive adhesive that secures the bottom surface of the lens to the top surface of the transparent circuit film.

A full-screen optical component, applied to an electronic device comprising a display screen, comprising a backlight module, an active light sensor including a sensor and a light emitter, and a dimmer. The display screen and the active light sensor are located on two opposite sides of the backlight module. The backlight module includes a first prism film and a second prism film stacked on the first prism film. The first prism film includes several first prisms. The second prism film includes several second prisms. The first prism includes a first in-light surface, and the second prism includes a second in-light surface. A display surface of the display screen, the first in-light surface, and the second in-light surface are disposed in parallel. The dimmer is configured to direct light emitted by the light emitter to the first in-light surface at an incident angle that is inclined relative to a vertical direction.

A touch panel switch device includes a display panel, a touch panel placed correspondingly to the display panel, a storage part and a control part. The storage part stores switch image information according to respective operation functions, code information according to the respective operation functions and placement information for display designating placement of switch images to be displayed on the display panel. The control part is configured to make the display panel display the switch images according to the switch image information and the placement information for display, and, in accordance with a touch operation onto the touch panel, read out from the storage part the code information corresponding to the switch image displayed at a location of the touch operation, perform output control of the code information, and also perform a rewrite process of the placement information for display based on received information.

A touch sensing device is disclosed. The touch sensing device includes one or more multifunctional nodes each of which represents a single touch pixel. Each multifunctional node includes a touch sensor with one or more integrated I/O mechanisms. The touch sensor and integrated I/O mechanisms share the same communication lines and I/O pins of a controller during operation of the touch sensing device.

An input device, including a flat panel defining an array of control surfaces, and an array of capacitive sensors and a support. The control surfaces are on a surface of the panel facing towards the operator and the support is on a side of the panel facing away from an operator. Also, each capacitive sensor forms a measuring capacitance assigned to a control surface. Further, each capacitive sensor is formed by a common substantially flat film layer structure. The film layer structure includes a first electrode for forming the measuring capacitance. On the side of the support, a lighting device is provided for each control surface for backlighting the associated control surface and transmitting light through the film layer structure. Also, the input device reduces the passage of light from one capacitive sensor to an adjacent capacitive sensor.

Transparent displays with capacitive touch are disclosed herein. Some embodiments include a rear transparent layer having light emitting elements, an intermediate transparent structural layer disposed on the rear transparent layer, a top transparent layer having capacitive touch elements that receive touch input, and a microprocessor that receives the touch input from the capacitive touch elements and controls illumination of the light emitting elements in response to the touch input, the microprocessor being configured to use a pulse skipping scheme applied to control illumination of the light emitting elements.

Transparent displays with capacitive touch are disclosed herein. Some embodiments include a rear transparent layer having light emitting elements, an intermediate transparent structural layer disposed on the rear transparent layer, a top transparent layer having capacitive touch elements that receive touch input, and a microprocessor that receives the touch input from the capacitive touch elements and controls illumination of the light emitting elements in response to the touch input, the microprocessor being configured to use a pulse skipping scheme applied to control illumination of the light emitting elements.