A projection type display device includes: a first light source that emits visible light; a projection receiving member which is disposed on a windshield of a vehicle, to which an image based on the visible light is projected; a second light source that emits ultraviolet light which decreases a light transmittance of the projection receiving member by irradiation of the projection receiving member; a projection unit that projects the visible light emitted from the first light source and the ultraviolet light emitted from the second light source to the projection receiving member; an imaging unit that performs imaging of a scene at front of the windshield of the vehicle; and a detection unit that detects an object image having brightness greater than or equal to a first threshold as defined herein, and the projection unit projects the ultraviolet light as defined herein.

A pointer assembly for a vehicle instrument panel includes a pointer arm, a cap, and a shroud. The pointer arm includes a platform portion disposed about an axis or rotation and an arm portion extending outward from the platform portion. The platform portion includes an illuminable perimeter. The cap is secured to the platform portion of the pointer arm inside of the illuminable perimeter. The shroud is secured to the platform portion of the pointer arm outside of the illuminable perimeter, and the illuminable perimeter is visible between an outer perimeter of the cap and an inner perimeter of the shroud.

An illuminating apparatus for a screen operable in at least two operating modes, viz B1 for a free viewing mode and B2 for a restricted viewing mode. The illuminating apparatus comprising: a backlight with a planar extension radiating light in a restricted angular range; a plate-shaped light guide that is, in a viewing direction, arranged in front of the backlight and with outcoupling elements one of the large surfaces and/or within its volume. The light guide is transparent to at least 70% of the light emitted by the backlight and light sources are arranged laterally at the edges of the light guide. Various parameters are specified for the number of outcoupling elements per unit area and for their extension, and in operating mode B2, the backlight is switched on and the light sources are switched off. In operating mode B1 at least the light sources are switched on.

A vehicle head-up display includes a liquid crystal panel, a light source, a first polarizing panel, and a second polarizing panel. The liquid crystal panel has opposing input and output surfaces. The liquid crystal panel is configured to form an image oriented relative to a horizontal axis. The light source is configured to direct light toward the input surface, through the liquid crystal panel, and out of the output surface to project the image onto an interior surface of a vehicle windshield. The first polarizing panel is secured to the output surface and has a first polarization axis oriented at a first angle relative to the horizontal axis. The second polarizing panel is disposed between the first polarizing panel and the windshield. The second polarizing panel has a second polarization axis oriented oriented at a second angle relative to the horizontal axis.

A camera system is provided. The camera system includes an image sensor, at least one light source, and a processing unit. The image sensor is configured to capture a plurality of images. The processing unit is configured to perform the following instructions. A plurality of reflection values on at least one subject in the captured images is acquired. A relationship between a luminance level of the light sources and a reflection level on the at least one subject is obtained. A luminance configuration is determined according to the relationship between the luminance level of the light sources and the reflection level on the at least one subject. A luminous power of at least one of the light sources is adjusted according to the luminance configuration.

An automotive luminous signaling glazing for example forming a laminated vehicle front windshield, includes a first exterior glazing, with a first main face and a second main face; a lamination interlayer made of polymeric material and a set of electrically conductive wires anchored on an anchoring face of the lamination interlayer, which is either the fifth main face or the sixth main main of the lamination interlayer; an interior second glazing, with a third main face and a fourth main face, the second main face and the third main face being the internal faces of the laminated glazing; and a set of diodes emitting in the direction of the interior glass. For each of the diodes, the lamination interlayer comprises a blind aperture on the opposite face to the anchoring face.

A lighting device for illuminating the vehicle interior of a motor vehicle is provided. The motor vehicle includes a plurality of light sources for illuminating the vehicle interior and a control device that can be used to actuate the plurality of light sources independently of one another. The motor vehicle further has an operator control device connected to the control device and includes segments and operator control elements that can be used to actuate the light sources independently of one another by a user. A display unit displays at least a partial image of the vehicle interior that can be illuminated or is illuminated by the controllable light sources.

An assembly and method for updating a display assembly of a control panel is disclosed with optimal uniform illumination. In some instances, embodiments include efficient and cost effective methods for upgrading display assemblies without having to completely overhaul the electrical, mechanical, or wiring components already existing within the control panel.

An electronic controller of a vehicle is in electronic communication with lamp cover condition sensors, a headlamp switch, an off-road lamp switch and an electronic display. The electronic controller is configured to turn on the off-road lamp device in response to the off-road lamp switch being switched to the on condition and further in response to each of a plurality of predetermined conditions being met, the electronic controller further being configured to prevent the off-road lamp device from turning on in response to the off-road lamp switch being switched to the on condition and further in response to at least one of the plurality of predetermined conditions not being met, the predetermined conditions including at least a determination that the removable lamp cover of the off-road device has been removed, and a determination that the headlamp switch is in the second operating condition.

Various implementations of illumination systems are described herein. For example, the illumination system includes a light guide having an outer surface and an inner surface that extend between a first end and a second end of the light guide, and at least one light source disposed adjacent the first end of the light guide. The light source emits infrared or visible light into the first end of the light guide. The light guide transmits the light from the light source through at least a portion of the outer surface of the light guide. In addition, the system may include a second light source disposed adjacent the second end of the light guide. The second light source emits infrared or visible light into the second end of the light guide.