A vehicle anti-collision light is disclosed. In one or more embodiments, the vehicle anti-collision light includes one or more illumination sources disposed on a substrate, and a reflector assembly coupled to the substrate at a base. In embodiments, the reflector assembly includes a reflective element including one or more reflective surfaces configured to redirect a first portion of illumination, and one or more transmissive portions configured to transmit a second portion of illumination through the reflective element. In embodiments, the one or more transmissive portions are bounded within the one or more reflective surfaces of the reflective element such that the reflective element includes one or more reflective surfaces between the base and the one or more transmissive portions, and one or more reflective surfaces between the one or more transmissive portions and a distal edge of the reflective element.

A vehicle anti-collision light is disclosed. In one or more embodiments, the vehicle anti-collision light includes one or more illumination sources disposed on a substrate, and a reflector assembly coupled to the substrate at a base. In embodiments, the reflector assembly includes a reflective element including one or more reflective surfaces configured to redirect a first portion of illumination, and one or more transmissive portions configured to transmit a second portion of illumination through the reflective element. In embodiments, the one or more transmissive portions are bounded within the one or more reflective surfaces of the reflective element such that the reflective element includes one or more reflective surfaces between the base and the one or more transmissive portions, and one or more reflective surfaces between the one or more transmissive portions and a distal edge of the reflective element.

A recessed light fixture configured to deliver indirect light to an area. The recessed light fixture includes a trim component, a reflector coupled to the trim component, and an annular ring including a plurality of light-emitting diodes (LEDs). The trim component has an outer wall and an inner wall spaced radially inward of the outer wall, and defines an annular recess between the outer and inner walls. The reflector includes a patterned reflective surface. The annular ring is arranged within the annular recess of the trim component. The LEDs are configured to emit light toward the reflector so that the reflector redirects the light to deliver the indirect light to the area.

A recessed light fixture configured to deliver indirect light to an area. The recessed light fixture includes a trim component, a reflector coupled to the trim component, and an annular ring including a plurality of light-emitting diodes (LEDs). The trim component has an outer wall and an inner wall spaced radially inward of the outer wall, and defines an annular recess between the outer and inner walls. The reflector includes a patterned reflective surface. The annular ring is arranged within the annular recess of the trim component. The LEDs are configured to emit light toward the reflector so that the reflector redirects the light to deliver the indirect light to the area.

A downlight fixture includes an optic housing, a light-emitting diode (LED) array, and a lens-less reflector. The LED array emits directional light rays in a downward direction towards an illuminated target. The reflector is mounted within the optic housing and adjacent to the LED array. The reflector has a hyperbolic wall continuously extending between a narrow neck and a wide bell. The light rays are spread into a light beam within the reflector upon making contact solely with the hyperbolic wall.

A downlight fixture includes an optic housing, a light-emitting diode (LED) array, and a lens-less reflector. The LED array emits directional light rays in a downward direction towards an illuminated target. The reflector is mounted within the optic housing and adjacent to the LED array. The reflector has a hyperbolic wall continuously extending between a narrow neck and a wide bell. The light rays are spread into a light beam within the reflector upon making contact solely with the hyperbolic wall.

A lighting device (1) for a motor vehicle headlight, having at least one illumination module (2) for emitting visible light, at least one optical component (3) deflecting and/or shaping the light of the illumination module (2) and a holding module (4) which is connected with the illumination module (2) and in which the at least one optical component (3) is supported, the illumination module (2) comprising at least one laser light source (2a) and a light conversion element (2b), the light of the at least one laser light source (2a) being directed onto the light conversion element (2b), which converts the light into visible light and emits it into the optical component (3), the holding module (4) having at least one first and one second guidance means (4b, 4h), the first guidance means (4b) being able to move the optical component (3) in a first direction (x) with respect to the light conversion element (2b), and the second guidance means (4h) being able to move the optical component (3) in a second direction (z), the first and the second directions (x, z) being different from one another.

A lighting device (1) for a motor vehicle headlight, having at least one illumination module (2) for emitting visible light, at least one optical component (3) deflecting and/or shaping the light of the illumination module (2) and a holding module (4) which is connected with the illumination module (2) and in which the at least one optical component (3) is supported, the illumination module (2) comprising at least one laser light source (2a) and a light conversion element (2b), the light of the at least one laser light source (2a) being directed onto the light conversion element (2b), which converts the light into visible light and emits it into the optical component (3), the holding module (4) having at least one first and one second guidance means (4b, 4h), the first guidance means (4b) being able to move the optical component (3) in a first direction (x) with respect to the light conversion element (2b), and the second guidance means (4h) being able to move the optical component (3) in a second direction (z), the first and the second directions (x, z) being different from one another.

An optical system (200, 300, 400), including: at least one 22 LED array forming a node (204) consisting of four different color LEDs: LED.sub.1(G), LED.sub.2(R), LED.sub.3 (B), LED.sub.4(W) and at least one respective TIR light-directing housing forming an optic (202) having a base end (208) and a light-emitting end (210), in which the node is disposed in the base end. The optic is characterized by a shape having four different focal points (F1, F2, F3, F4), and each of the LED.sub.1, LED.sub.2, LED.sub.3, LED.sub.4 is disposed at a respective one of the focal points.