A lighting system for specialty lighting, which may be attached to a motor vehicle with a window (e.g., glass, plastic, etc.) that is light transmissive. The lighting system may include one or more light assemblies attached to the window in an interior of the vehicle. The lighting system may include an optical path translator to direct the light emitted out the window of the vehicle and limit the amount of light reflected into the cabin of the vehicle. The lighting system may provide concealed electrical connections for power, signal, and data, as well as concealment for one or more additional aspects of the lighting system.

A lighting system for specialty lighting, which may be attached to a motor vehicle with a window (e.g., glass, plastic, etc.) that is light transmissive. The lighting system may include one or more light assemblies attached to the window in an interior of the vehicle. The lighting system may include an optical path translator to direct the light emitted out the window of the vehicle and limit the amount of light reflected into the cabin of the vehicle. The lighting system may provide concealed electrical connections for power, signal, and data, as well as concealment for one or more additional aspects of the lighting system.

A laminated glazing having a first glass substrate (104) and a second glass substrate (108) and a polymer interlayer laminated between the first glass substrate and the second glass substrate, being formed with a light path (120) formed in any one or combination of the first and second glass substrates and the polymer interlayer for guiding light emitted from a light source (112), a light introduction surface (110) for introducing the light emitted from the light source into the light path, and a light extraction surface (130,150) for extracting, from the light path, the light to either one or both of an interior and an exterior of the first and second glass substrates.

An illuminating glazing unit includes a first transparent sheet of glass drilled with a through-hole delimited by an internal wall; at least one inorganic light-emitting diode including an emission surface emitting light in a main direction of emission substantially orthogonal to the emission surface; and a light guide element including an input face arranged facing the emission surface, a body and an output face arranged facing the internal wall, the light-emitting diode having an emission cone of at least 80°.

An illuminating glazing unit includes a first transparent sheet of glass drilled with a through-hole delimited by an internal wall; at least one inorganic light-emitting diode including an emission surface emitting light in a main direction of emission substantially orthogonal to the emission surface; and a light guide element including an input face arranged facing the emission surface, a body and an output face arranged facing the internal wall, the light-emitting diode having an emission cone of at least 80°.

A vehicle includes a roof panel, an opening defined by the roof panel and a movable panel assembly that is configured to move between a closed position and an open position with respect to the opening. A first track is located above the roof panel at a first lateral side of the movable panel, and a second track located above the roof panel at a second lateral side of the movable panel, wherein the movable panel is supported by the first track and the second track for movement between the closed position and the open position.

A vehicle includes a roof panel, an opening defined by the roof panel and a movable panel assembly that is configured to move between a closed position and an open position with respect to the opening. A first track is located above the roof panel at a first lateral side of the movable panel, and a second track located above the roof panel at a second lateral side of the movable panel, wherein the movable panel is supported by the first track and the second track for movement between the closed position and the open position.

An optoelectronic device comprises a layer stack, which includes a carrier layer, a cover layer, and a first layer. The first layer is in particular an intermediate layer, arranged between the cover layer and the carrier layer. At least one electronic or optoelectronic element, in particular an optoelectronic light source, is arranged on the first layer and at least one layer of the layer stack and preferably all layers of the layer stack are at least partially transparent. The layer stack comprises at least one layer which comprises particles with a high thermal conductivity and/or at least one thermally conductive layer which is arranged between two adjacent layers of the layer stack.

A glass panel assembly for use in a roof of a vehicle, comprises a glass panel, a frame and an elongate lighting device. The glass panel comprises an interior main surface and the interior main surface of the glass panel is configured to be directed to a passenger compartment of the vehicle. The frame is adhered to the interior main surface and comprises a shaped element. The shaped element is one of a recess and a protrusion. The elongate lighting device is coupled to the frame by a mating shape engaging the shaped element. The lighting device is configured to directly illuminate at least a part of said passenger compartment.

A glass panel assembly for use in a roof of a vehicle, comprises a glass panel, a frame and an elongate lighting device. The glass panel comprises an interior main surface and the interior main surface of the glass panel is configured to be directed to a passenger compartment of the vehicle. The frame is adhered to the interior main surface and comprises a shaped element. The shaped element is one of a recess and a protrusion. The elongate lighting device is coupled to the frame by a mating shape engaging the shaped element. The lighting device is configured to directly illuminate at least a part of said passenger compartment.