A light emitting system includes at least one light pipe, at least one light source disposed at least partially within an interior of the system, at least one mask, and a lens substantially enclosing the interior of the system, the at least one light pipe, and the at least one light source, the lens having an inner surface, an outer surface disposed opposite the inner surface and at least one of a continuous transparent or translucent coating on the outer surface.

An LED taillight with an integrated GPS tracking system is disclosed therein. The GPS tracking system is hidden behind the LED portion of the LED taillight so that the GPS tracking system is not noticeable by someone inspecting a trailer on which the LED taillight is installed. Additionally, power sent to the LED taillight to power the LEDs also recharge a battery associated with the GPS tracking system and power the GPS tracking system during use.

A vehicle light assembly includes auxiliary lighting. The auxiliary light includes a base that may comprise a circuit board and a heat sink material. A series of auxiliary lights, such as LEDs, are attached to the base. A fastener extends through a mounting hole in the base to attach the base to the vehicle lighting shroud or trim. The auxiliary lights may be in an annular array, typically called a halo, or in numerous other linear or geometric shapes.

Disclosed are an organic light emitting display device and lighting apparatus for vehicles using the same. The organic light emitting display device includes a first layer including a first organic layer and a first emission layer on a first electrode, a second layer including a second emission layer and a second organic layer on the first layer, a second electrode on the second layer, and a third organic layer between the first layer and the second layer. A thickness of the first emission layer is equal to or greater than a thickness of each of the first organic layer and the second organic layer.

The present disclosure relates an integrated module including a camera and a lamp, and may include a camera that acquires an image of a periphery of a vehicle and provide the image, at least one first lamp and at least one second lamp disposed at at least one location of an upper side and a lower side of the camera in a direction of a transverse axis of the camera, and a lamp controller that provides electrical energy for the first lamp to the first lamp and provides electrical energy for the second lamp to the second lamp according to daytime/nighttime determination information based on the image.

A power supply device used for a wheel rim is mounted on a wheel rim of a vehicle. The power supply device includes a magnetism assembly, an axle member, a magnet, a weight block, a seat, a coil module, and a control module. The seat is disposed on the wheel rim. One side of the seat is provided with an axle seat for connection of the axle member. The seat is driven by the wheel rim to turn relative to the magnetism assembly. When the seat is turned to generate power through the magnet and the coil module, the control module selectively transmits the power to a light-emitting device provided on the wheel rim.

Provided is a vehicle lamp including: a light source; and a light guide extending in a predetermined extension direction and configured to guide therethrough a light from the light source such that the light is incident from a rear surface and emitted from a front surface. The light guide includes a guide element including a front incident surface formed in a portion of the rear surface facing the light source; a side incident surface formed on a side of the front incident surface on the rear surface, and a reflecting surface formed on a side of the side incident surface on the rear surface and configured to totally reflect the light incident from the side incident surface toward the front surface. A joint portion between the front incident surface and the side incident surface is formed as a curved surface.

A lighting system for a motor vehicle includes a printed circuit board equipped with light emitting diodes for emitting light beams in lighting directions and an optical module formed to propagate and transmit the light beams. The optical module has a reception surface to receive the light beams and an emission surface for retransmitting the light beams. The lighting system also includes at least one element for masking the light beams emitted by the light emitting diodes. The element for masking which extends from at least one of the light emitting diodes toward the reception surface and substantially parallel to the lighting direction of the at least one light emitting diode, over at least a part of the periphery of the at least one light emitting diode and over at least a part of a distance separating the at least one light emitting diode and the reception surface.

A vehicle luminous signaling glazing unit forming a front windshield, includes a first glazing pane, forming the exterior glazing pane, with first and second main faces F1, F2; a lamination interlayer made of a polymeric material of thickness e1 of at most 1.8 mm; and a second glazing pane, forming the interior glazing pane, with third and fourth main faces F3, F4, the face F2 and the face F3 being the internal faces of the laminated glazing unit; and a set of diodes on a front face of a PCB board, the assembly being of thickness et2≦e1, each diode emitting in the direction of the interior glass, and each diode having an edge face. For each of the diodes, the lamination interlayer comprises a through-aperture encircling the edge face of the diode, and the lamination interlayer is between face F3 and the front face of the PCB board.

A passenger communication lighting display on or adjacent a touch bar on a passenger door of a transit vehicle comprises a display that can be controlled to display multiple colors continuous or blinking, and a control means causing the display to be dark when the door is closed, the display to be a first color when the operator has authorized opening, the display to flash a second color when the passenger has requested the door be opened, the display to be blinking the second color when the door is opening, the display to be continuously the second color when the door is resting in the open position, and the display to be blinking a third color while the door is closing.