An optical device comprising a first surface with a plurality of micro sized facets, each facet having a respective orientation. Said plurality of facets having an optical axis which extends parallel to the normal vector to an average orientation of all said respective orientations. The plurality of facets comprising at least a first and a second group of facets, each group is formed by a respective number of at least twenty-five compactly arranged neighboring facets. Each group is arranged to generate during operation a respective, mutually identical whole pattern. Each facet in a respective group is arranged to display a sub-pattern of said respective whole pattern. The whole patterns are mutually superpositioned.

A thin aspect lighting system and method are shown. The system and method include at least one module having a reflector that is generally elliptical in one cross-section and generally parabolic in another cross-section. Each module is adapted to generate at least one of a flat beam pattern, a high beam pattern or a low beam pattern, such as a low beam pattern with a kink or elbow. Also shown is a headlamp assembly having a plurality of modules that generate the same or a different light beam pattern. Manipulation and variation of facets or positions of various components, such as at least one light source provides improved characteristics in one or more of the light beam patterns.

A vehicle light includes a base having a compartment. At least one first light emitter and a plurality of second light emitters are disposed on a circuit board mounted in the compartment. A reflective seat is disposed in the compartment and is located in front of the first and second light emitters. The reflective seat includes at least one hollow portion aligned with the at least one first light emitter and at least one first reflective face substantially surrounding the at least one hollow portion. The at least one first light emitter is configured to emit light rays which are reflected forwards by the at least one first reflective face. A lens includes a light incoming face and a light outgoing face. The plurality of second light emitters is configured to emit light rays which are incident to the light incoming face and which exits via the light outgoing face.

A lamp for a vehicle includes a light emitting unit for generating light, and an optical unit for forming a predetermined light irradiation pattern by outputting the light incident from the light emitting unit through a plurality of optical modules each including an incident lens and an output lens. The light emitting unit includes a light source unit, and a plurality of reflectors arranged in a left-right direction to allow the light generated from the light source unit to be reflected to the optical unit, and the optical unit includes a plurality of areas for outputting the light incident from the plurality of reflectors.

A lighting device includes a first light emitting part including a first light source part and a first optical part that includes a first reflecting part and a second reflecting part. A first direction from the first reflecting part to the second reflecting part crosses a second direction from the first light source part to the second reflecting part. A direction from the first light source part to the first reflecting part is along a first plane which includes the first direction and the second direction, and crosses the second direction. A distance between the first reflecting part and the first light source part is larger than a distance between the second reflecting part and the first light source part. A light distribution angle of a first-reflecting-part light in the first plane is larger than the light distribution angle of the second-reflecting-part light in the first plane.

A vehicle light includes a base having a compartment. At least one first light emitter and a plurality of second light emitters are disposed on a circuit board mounted in the compartment. A reflective seat is disposed in the compartment and is located in front of the first and second light emitters. The reflective seat includes at least one hollow portion aligned with the at least one first light emitter and at least one first reflective face substantially surrounding the at least one hollow portion. The at least one first light emitter is configured to emit light rays which are reflected forwards by the at least one first reflective face. A lens includes a light incoming face and a light outgoing face. The plurality of second light emitters is configured to emit light rays which are incident to the light incoming face and which exits via the light outgoing face.

A light system comprising: (a) a plurality of light sources; (b) a plurality of reflectors that are each aligned with and reflect one or more of the plurality of light sources in a first direction away from a vehicle that houses the light system, wherein at least one of the plurality of reflectors comprises: (i) a plurality of reflector facets; (ii) a vertical centerline that extends through a central reflector facet; and (iii) an equal number of the plurality of reflector facets in a first region on a first side of the vertical centerline and second region on a second side of the vertical centerline; wherein the second region has a width from the centerline that is less than a width of the first region from the centerline.

A vehicle lamp includes a light source unit including a first light source and a second light source, a reflector which includes a plurality of first reflecting surfaces sharing a first focal point at a position corresponding to the first light source and a plurality of second reflecting surfaces sharing a second focal point at a position corresponding to the second light source, and which has a shape by which the first reflecting surfaces and the second reflecting surfaces diffuse a white light from the first light source and an orange light from the second light source in the right-left direction in an in-vehicle state, and an inner lens that emits the white light and the orange light reflected by the plurality of first reflecting surfaces and the plurality of second reflecting surfaces from a common emission surface to the front of a vehicle.

A thin aspect lighting system and method are shown. The system and method include at least one module having a reflector that is generally elliptical in one cross-section and generally parabolic in another cross-section. Each module is adapted to generate at least one of a flat beam pattern, a high beam pattern or a low beam pattern, such as a low beam pattern with a kink or elbow. Also shown is a headlamp assembly having a plurality of modules that generate the same or a different light beam pattern. Manipulation and variation of facets and/or positions of various components, such as at least one light source, have been found to provide improved characteristics in one or more of the light beam patterns.

The present invention relates to the field of automotive lighting, and in particular to an automotive lighting system for a vehicle. The automotive lighting system for a vehicle comprises: a plurality of light sources; a plurality of primary optics, each being a reflector, arranged in a matrix and configured to receive and redirect light from the plurality of light sources; and a secondary optics configured to receive the redirected light from the plurality of primary optics and project the received light in front of the vehicle. Further, each light source is disposed in a focal plane of a corresponding one of the plurality of primary optics, and at least one of the plurality of primary optics is disposed in a focal plane of the secondary optics.