Methods and apparatus for providing circadian-friendly LED light sources are disclosed. A light source is formed to include a first LED emission (e.g., one or more LEDs emitting a first spectrum) and a second LED emission (e.g., one or more LEDs emitting a second spectrum) wherein the first and second LED emissions are combined in a first ratio and in a second ratio such that while changing from the first ratio to the second ratio the relative circadian stimulation is varied while maintaining a color rendering index above 80.

A lighting device (10) for vehicle headlamps, comprising: —at least one light source (50), —a light guide (200) comprising an end section (210) with a light entry surface, —a light guide adapter (300) configured to secure the end section (210) and to hold the light entry surface in a position with regard to the light source (50), the light guide adapter (300) comprises a base-section (310) and a securing-section (320), and —a support frame (400), on which the light guide adapter (300) is mounted, wherein the securing-section (320) comprises a first engaging-element (320a), the base-section (310) comprises a first fastening-opening (311), the support frame (400) comprises a mounting-opening (410) for the securing-section (320) of the light guide adapter (300) and a second fastening-opening (411), wherein the mounting-opening (410) having a second engaging-element (410a) corresponding to the first engaging- element (320a), wherein the light guide adapter (300) can be brought into an end position (P2) by inserting the securing-section (320) into the mounting-opening (410), such that the first engaging-element (320a) engages with the second engaging-element (410a), wherein the first fastening-opening (311) and the second fastening-opening (411) are overlapped, so that the first and second fastening-opening (311, 411) can receive a fastening-element (110).

An illuminated emblem assembly with improved homogeneity includes an emblem body comprising emblem edges, a housing comprising a chamber, a light source positioned at a second end of the chamber, and a light guide positioned over a housing aperture, the light guide having a proximal side facing the emblem body and a distal side facing the light source. Light enters the light guide through a housing-side entry surface disposed on the distal side. A first exit surface is defined by a first proximal edge of the proximal side and a first distal edge of the distal side. A second exit surface is defined by a second proximal edge and a second distal edge. The illuminated emblem assembly includes a reflector that directs light exiting a reflector-side transmissive surface of the light guide back through and toward the first exit surface and the second exit surface.

A lighting device includes a light source configure to irradiate excitation light and a vehicle glass configured to emit visible light through incident radiation of the excitation light, in which the vehicle glass is configured to emit the visible light synchronously in an area of 30% or more by irradiation with the excitation light.

Provided are an auto-regulated vehicle headlamp, an automatic regulation method and a vehicle. The auto-regulated vehicle headlamp includes: a projector assembly capable of projecting infrared rays, configured to project infrared stripes onto a traveling road-surface; the infrared stripes being constituted by alternate bright and dark stripes so that corresponding distorted stripes can be formed when an object, during appearing or disappearing on the traveling road-surface, has a changed contour; a camera configured to capture image information on the distorted stripes; an image processor in data connection with the camera and configured to acquire the image information and generate a headlamp control command accordingly; a matrix headlamp including a plurality of LED light sources; and a first controller in data connection with the matrix headlamp and the image processor, configured to acquire the headlamp control command and adjust the number of the LED light sources to be activated and their brightness.

A headlamp unit based on a PBS includes a lens and a beam splitter. Viewed from a reverse light path, parallel light is refracted twice by an incident surface and an emergent surface of the lens and then converged in at least two focuses through the beam splitter. Each focus corresponds to a light path system, and the light path systems may be turned on simultaneously or separately to obtain a corresponding headlamp light pattern. Through beam combination of the PBS, two optical systems may achieve different illumination light shapes through on-off combination of light sources, and the two optical systems do not interfere with each other. The PBS obtains at least two accurate focus positions for the focuses of the lens, and an ideal light pattern may be accurately obtained. An upper beam light pattern may partially cover a lower beam light pattern.

The present invention proposes a lighting device for a motor vehicle comprising a first module that projects a first pixelated high beam, a second module that projects a second pixelated writing beam onto the road, and a third module that projects a third low beam cut-off. The first, second and third modules are arranged such that the first and second beams overlap at least partially vertically; and the second and third beams overlap at least partially vertically.

A vehicle lighting assembly includes a solid state light emitter mounted on a first side of a substrate. A second side of the substrate is connected or adjacent to a heatsink. The heatsink may have a lower thermal conductivity than the second side of the substrate. A blower fluidly engages with the heatsink to flow fluid, e.g., air, through passages in the heatsink. The heatsink can include at least one aperture such that the moving fluid from the blower contacts at least a portion of the second side of the substrate.

A lamp for a vehicle includes a first lamp module including a first light source part, and a first lens structure that forms a first light distribution pattern with light irradiated from the first light source part, and a second lamp module including a second light source part, and a second lens structure that forms a second light distribution pattern having characteristics that are different from those of the first light distribution pattern with light irradiated from the second light source part. The first light distribution pattern and the second light distribution pattern overlap each other to form a low beam pattern. Shapes of input surfaces of the first lens structure and the second lens structure, to which the light is input, are different.

A vehicle lamp including a light source, a glass disposed in front of the light source, a housing supporting the light source and the glass, and a thermoelectric element unit generating cold wind and hot wind. The thermoelectric element unit includes a first part connected to the first flow path and generating one of cold air and hot air, a second part connected to the second flow path and generating the other one of the cold air and the hot air, a body accommodating the first part and the second part and having an opening formed on an upper surface, and a fan configured to be disposed on the opening of the body and introduce the air in a direction from the upper surface to a lower surface of the body. The thermoelectric element unit is positioned on an upper end of an external rear surface of the housing.