A light-emitting unit, having a substrate; a first light-emitting body formed on the substrate, and having a first longer side and a first shorter side; a second light-emitting body formed on the substrate, and having a second longer side and a second shorter side which is parallel to the first longer side; a third light-emitting body formed on the substrate, having a third longer side and a third shorter side which is parallel to the first longer side, and electrically connected to the first light-emitting body and the second light-emitting body; a first electrode covering the first light-emitting body and the second light-emitting body, and electrically connecting to the first light-emitting body; a second electrode separated from the first electrode, and covering the second light-emitting body without covering the first light-emitting body; and a transparent element enclosing the first light-emitting body, the second light-emitting body, and the third light-emitting body.

The invention relates to a lighting device, a lighting system and a lighting method. The lighting device comprises a row of lighting units mounted in a first direction X on an elongated carrier wherein each lighting unit is mounted with a respective, fixed, unique, pre-determined orientation. Said lighting device is configured to directly project on a target plane P a row of light patches, said plane P extending in said first direction X and in a second direction Y transverse to said first direction. Said row of light patches extends in the second direction and wherein said lighting device is offset out of said plane P in a third direction Z. The lighting system comprises at least a first and at least one second lighting device substantially lying in line in the length direction. Optionally said first and at least one second lighting device may extend in two or three parallel rows. Said lighting system further optionally comprises a control unit for individual control/addressing of the lighting units of the at least first and further lighting device.

An electronic device includes a housing, a speaker, control circuitry, a plurality of light-emitting components configured to emit light through an upper housing wall or other housing structure. A lens diffuser layer having lenses overlapping respective light-emitting components, a textured diffuser layer formed from textured coatings on a substrate, and a volume diffuser layer having light-scattering structures in a polymer layer might be included to project light from the light-emitting components. A light-guiding portion of the lens diffuser layer may guide light to a circular peripheral edge to form an illuminated ring visible through the upper housing wall.

A flame lamp made of filament lamps, comprises a fixing device, a controller and one or a plurality of LED filament lamps, wherein the LED filament lamps are fixedly installed on the fixing device and electrically connected with the controller, and the controller is used for controlling the light emitting frequency and pulse brightness of the LED filament lamps. Each LED filament lamp comprises at least two light source arrays from top to bottom, wherein the light emitting frequencies and/or the pulse brightnesses of at least two light source arrays are different. Each LED filament lamp is vertically arranged, and the upper end and the lower end of each LED filament lamp are fixedly connected with the fixing device. Various specific assembly methods are provided. The present invention innovatively makes a flame lamp of filament lamps and uses one or a combination of a plurality of filaments to achieve the luminous effect of a flame through different assembly structures and flashing methods, which can effectively simplify the production process, reduce production cost and provide a good visual effect.

Embodiments disclosed herein include to interconnectable circuit boards that can be constructed into three-dimensional shapes for use as lighting sources. An interconnectable circuit board array is included having a plurality of circuit board assemblies. The circuit board assemblies can include a first longitudinal edge, and a second longitudinal edge, and a plurality of bendable lateral board to board connectors. The plurality of bendable lateral board to board connectors are configured to provide electrical communication between a first circuit board from amongst the plurality of circuit board assemblies and a second circuit board from amongst the plurality of circuit board assemblies. Longitudinal edges of the first circuit board and of the second circuit board define a gap between the first circuit board and the second circuit board. The gap being bridged by at least one of the lateral board to board connectors. Other embodiments are also included herein.

A light assembly including a light holder is disclosed. The light holder includes a first ring configured for threaded engagement with a second ring to form a body defining an annular cavity to maintain a light element in a fixed position relative to a motorcycle or other vehicle. The light holder includes a spacer preconfigured for the light element that provides cushion and vibration protection between the body and the light element. Alignment markers defined along the body accommodate identification of one or more axial configurations of the first ring relative to the second ring for secure threaded engagement.

A method and apparatus for improving the optical properties of an LED using a retroreflector element. A light emitting apparatus includes a substrate, at least one light emitting device attached to the substrate and including an outer primary light emitting surface through which substantially all light is emitted, and a retroreflector assembly attached to the substrate. The retroreflector assembly includes a proximal surface adjacent to the substrate, a distal surface spaced away from the substrate, and a retroreflective portion arranged between proximal surface and the distal surface. A distance from the distal surface to the substrate is less than or equal to a distance from the outer primary light emitting surface to the substrate.

A method and apparatus for a lighting assembly for a vehicle can include a housing assembly and a set of adaptors. Vehicles today are often limited to specific wiring harnesses or connection types based upon manufacturer. Each adaptor of the set of adaptors can include a different connection type. The adaptors are interchangeably connectable to the housing assembly in order to vary the connection type based upon the specific wiring harness or connection type of the particular vehicle.

A lighting apparatus includes a driver, an elongated housing, an extending connector, a light source and an extension module. The driver converts an external power source to a driving current. The elongated housing has a lighting area, an extension area and a light opening. The extending connector has a holder and an electrode connecting to the driver. The holder is placed in the extending area of the elongated housing. The light source is attached to the lighting area for generating a first light escaping from the light opening. The extension module is attached to the holder of the extending connector to electrically connect to the driver via the electrode.

An LED filament lamp having a memory function includes a bulb shell, a lamp cap, a stem, LED light strips and a driver. The lamp cap is disposed on the bulb shell, and the lamp cap and the bulb shell encircle to form an accommodating cavity. The stem is disposed in the accommodating cavity, and the stem has three lead wires. The LED light strips are disposed on the stem are connected to the three lead wires. The driver is disposed in the lamp cap and the drive is connected to the three lead wires. By setting a receiving module and a dimming and toning IC on the drive, color temperature may be adjusted by powering on or off the switch, brightness and colors of the LED filament lamp may be adjusted by a remote controller transmitting 2.4 GHz signals.