A vehicle instrument panel having a three-dimensional illumination effect includes a transparent ring having a three-dimensional circular shape, at least one primary scale formed in a front surface of the transparent ring, the at least one primary scale being spaced apart from an adjacent primary scale by a predetermined distance, a reflecting plate for changing a direction of travel of LED light along the transparent ring, generated below the transparent ring, in clockwise and counterclockwise directions, and a prism unit including at least one prism for reflecting a portion of the LED light traveling along the transparent ring toward the at least one primary scale at a predetermined angle.

According to one embodiment of the invention, a display device having a first region adjacent to a transflective object in a vehicle, comprising: a first light emitting unit disposed in the first region; and a light controlling means disposed on a route that a first light and a second light emitted from the first light emitting unit propagate, through which the first light is controlled to propagate out of the display device at a first angle ranged from 30 degrees to 45 degrees and toward the transflective object and the second light is controlled to propagate out of the display device at a second angle ranged from 0 degrees to 5 degrees; wherein a first ratio of a light intensity of the first light to that of the second light is less than or equal to 14%.

It is provided a window of a vehicle, optoelectronic circuits, in particular optoelectronic circuits for a window of a vehicle and a method for manufacturing a window of a vehicle including at least one optoelectronic component. It is further provided a display comprising at least one display module each comprising at least one optoelectronic array with a plurality of optoelectronic components, each optoelectronic component forming a pixel comprising at least one subpixel, in particular a ?LED. In addition, a method for manufacturing a display module comprising at least one optoelectronic array with a plurality of optoelectronic components, each optoelectronic component forming a pixel comprising at least one subpixel, in particular a ?LED, is provided.

The present disclosure relates to a function display for selectively displaying several symbols representing one switching function, respectively, and/or at least two switching states, including a light guide stack which forms a display surface facing towards an observer; wherein the light guide stack is formed from at least planar light guides arranged in an overlaid manner in a stacking direction, which are arranged so as to be spaced apart by a transparent or translucent layer; at least one light source per light guide wherein, further, at least one microstructured symbol area in or on the light guide which is configured, if the light source is activated, to be visible to the observer; a circuit board on which the several light sources are arranged and fixed; a panel fixed to the light guide stack to which the circuit board is fixed while resting against a mounting surface.

A light source unit used for a vehicular head-up display includes a prism-shaped multi-reflection member and a substrate. The multi-reflection member has: an entrance surface; an emission surface; and a reflective surface connecting the entrance surface and the emission surface. The substrate faces the entrance surface and is provided with a plurality of light sources mounted in a matrix. A ratio Ra=A/B or a ratio Rc=a/b is larger than a ratio Rb=C/D, where A and B is the number of the light sources provided in a longer and shorter direction of the entrance surface, respectively, C and D is a longer and shorter dimension of the emission surface, respectively, and a and b is the sum of lengths of light-emitting surfaces of the plurality of light sources in the longer and shorter direction of the entrance surface, respectively.

A display system for at least one wheel of at least one vehicle comprising: At least one LED display device for displaying information on a wheel of a vehicle; A computer in association with the at least one LED display device, the computer comprising GPS; A main server;
Wherein the LED display device is linked to the computer and the computer is in wireless communication with the main server via a wireless network; in use, the server has stored in memory a plurality of information packets for display by the LED display device, each information packet has an associated location and/or time for being displayed, the main server wirelessly sends at least one information packet and associated time and/or location to the associated computer of the at least one vehicle, when the at least one vehicle is in the desired location and/or time the computer instructs the at least one LED display device to display the associated information.

The present application provides a backlight module, an in-vehicle display panel, and a vehicle. The backlight module includes a first backlight module and a second backlight module. The first backlight module includes an opening. The second backlight module is installed in the opening. The first backlight module and the second backlight module are of different types, so the first backlight module and the second backlight module can emit light separately according to different backlight control types, and therefore, a fault tolerance of the backlight module is improved

A display device includes: a first light emitting diode configured to illuminate a first display; a first power control circuit configured to control power supply to the first light emitting diode; a first lighting control circuit configured to execute lighting control of the first light emitting diode; a first monitor circuit configured to monitor a first lighting state of the first light emitting diode; and first control circuitry including a memory and a processor, configured to execute determining, based on an output of the first monitor circuit, whether the first lighting state is abnormal, and controlling permission or non-permission of power supply to a second light-emitting diode of a display device that is used as the second display device, based on a determination result of the determining.

An optimized display system for a vehicle using a glass assembly. The system includes a power source coupled to the processing unit for providing an input DC voltage. The processing unit is coupled to the power source. The processing unit is configured to receive input. The processing unit generates a command signal to interactively control a display unit in response to at least one input. A convertor is coupled to the processing unit. The convertor is configured to generate at least one of an output AC voltage or output DC voltage based on the command signal. The display unit includes one or more illumination devices sandwiched in the glass assembly.

The invention relates to a vehicle having a detection device for detecting a property of a vehicle occupant and an operator control and display device which is coupled to the detection device, has a display region and is configured to display information in the display region and by means of which a symbol can be displayed in the display region as a function of the sensed property. It is provided here that the property which is detected by means of the detection device is a position of the vehicle occupant, and the operator control and display device is configured to display the symbol in a partial region of the display region which is determined as a function of the detected position, and to assign the symbol to the vehicle occupant in such a way that when there is a change in position of the vehicle occupant that the symbol follows the vehicle occupant. The invention also relates to a method for operating such a vehicle. The invention makes particularly flexible use of the vehicle possible.