An LED bulb structure includes a heat dissipation base, a power connector, a light-emitting module, an insulation cover, and a light-guiding cover. The power connector is disposed on a bottom side of the heat dissipation base. The light-emitting module includes a circuit substrate disposed on a top side of the heat dissipation base and a plurality of LED chips electrically connected to the circuit substrate. The LED chips are surroundingly disposed on the circuit substrate and adjacent to an outer perimeter surface of the circuit substrate. The insulation cover is disposed on the circuit substrate, and the insulation cover has a surrounding main portion and a convex portion disposed on a top side of the surrounding main portion. The light-guiding cover is disposed on the insulation cover. The light-guiding cover has a through opening formed on a top side thereof for exposing the convex portion.

An LED bulb structure includes a heat dissipation base, a power connector, a light-emitting module, an insulation cover, and a light-guiding cover. The power connector is disposed on a bottom side of the heat dissipation base. The light-emitting module includes a circuit substrate disposed on a top side of the heat dissipation base and a plurality of LED chips electrically connected to the circuit substrate. The LED chips are surroundingly disposed on the circuit substrate and adjacent to an outer perimeter surface of the circuit substrate. The insulation cover is disposed on the circuit substrate, and the insulation cover has a surrounding main portion and a convex portion disposed on a top side of the surrounding main portion. The light-guiding cover is disposed on the insulation cover. The light-guiding cover has a through opening formed on a top side thereof for exposing the convex portion.

Embodiments relate to a light emitting device, a light emitting device package, and a lighting system comprising the same. The light emitting device according to embodiments may comprise: a first conductivity-type semiconductor layer; an active layer on the first conductivity-type semiconductor layer; an electron blocking layer on the active layer; and a second conductivity-type semiconductor layer on the electron blocking layer. The electron blocking layer may comprise an In.sub.xAl.sub.yGa.sub.1-x-yN based superlattice layer (wherein 0≦x≦1, 0≦y≦1).

A sleeve for decorative lighting helps prevent tangled lighting wires. The sleeve has clamps at each end that clamp the lighting wires. The sleeve is flexible and may be elastic. The sleeve may be a light diffuser so that the decorative lighting can be used while in the sleeve. A decorative lighting string has retractable lights and may be at least stored in the sleeve.

An LED lighting device or LED lamp comprising one or more LED packages; and a switch control unit is provided. The switch control unit is configured to operate the one or more LED packages. The switch control unit is in communication with a sensor located in a space, the LED lighting device or LED lamp also being located in the space. The switch control unit is configured to (i) receive a sensor signal from the sensor, (ii) process the sensor signal, (iii) determine an adjustment to the operating light qualities of the LED lighting device or LED lamp based on the processing of the sensor signal and one or more goal light qualities corresponding to the space, and (iv) adjust the operation of the one or more LED packages in accordance with the adjustment.

An LED lighting device or LED lamp comprising one or more LED packages; and a switch control unit is provided. The switch control unit is configured to operate the one or more LED packages. The switch control unit is in communication with a sensor located in a space, the LED lighting device or LED lamp also being located in the space. The switch control unit is configured to (i) receive a sensor signal from the sensor, (ii) process the sensor signal, (iii) determine an adjustment to the operating light qualities of the LED lighting device or LED lamp based on the processing of the sensor signal and one or more goal light qualities corresponding to the space, and (iv) adjust the operation of the one or more LED packages in accordance with the adjustment.

A lighting device (1) is provided comprising a support structure (13, 13′), the support structure (13, 13′) comprising a first layer (13a, 13a′) comprising metal and a second layer (13b, 13b′) comprising metal; a central mounting face (18c) formed by a portion of the first layer (13a, 13a′) and by a portion of the second layer (13b, 13b′); and at least one lateral mounting face (18a, 18b) formed by a portion of one of the first layer (13a, 13a′) and the second layer (13b, 13b′); the lighting device (1) further comprising: at least one first light emitting element (11.1, 11.2, 11.3, 11.4, 11.5) arranged on the central mounting face (18c) in contact with the first layer (13a, 13a′) and in contact with the second layer (13b, 13b′); at least one second light emitting element (12a.1, 12a.2, 12a.3, 12a.4, 12a.5, 12b.1) arranged on the lateral mounting face (18a, 18b) in contact with the one of the first layer (13a, 13a′) and the second layer (13b, 13b′) forming the lateral mounting face (18a, 18b), and separated from the other one of the first layer (13a, 13a′) and the second layer (13b, 13b′).

Furthermore, a method for manufacturing such lighting device (1) and an automotive headlight comprising such lighting device (1) are provided.

A lighting device (1) is provided comprising a support structure (13, 13′), the support structure (13, 13′) comprising a first layer (13a, 13a′) comprising metal and a second layer (13b, 13b′) comprising metal; a central mounting face (18c) formed by a portion of the first layer (13a, 13a′) and by a portion of the second layer (13b, 13b′); and at least one lateral mounting face (18a, 18b) formed by a portion of one of the first layer (13a, 13a′) and the second layer (13b, 13b′); the lighting device (1) further comprising: at least one first light emitting element (11.1, 11.2, 11.3, 11.4, 11.5) arranged on the central mounting face (18c) in contact with the first layer (13a, 13a′) and in contact with the second layer (13b, 13b′); at least one second light emitting element (12a.1, 12a.2, 12a.3, 12a.4, 12a.5, 12b.1) arranged on the lateral mounting face (18a, 18b) in contact with the one of the first layer (13a, 13a′) and the second layer (13b, 13b′) forming the lateral mounting face (18a, 18b), and separated from the other one of the first layer (13a, 13a′) and the second layer (13b, 13b′).

Furthermore, a method for manufacturing such lighting device (1) and an automotive headlight comprising such lighting device (1) are provided.

A lighting device may include a lens, an emitter configured to emit light through the lens, and a reflector. The reflector may define a cavity that extends from a first end to a second end of the reflector. The emitter may be received in the first end of the reflector, and the lens may be attached to the second end of the reflector. The lens may include teeth that extend from a rear surface of a rim of the lens. The reflector may include a collar at the second end, and the collar may include attachment clips that are configured to lock the teeth in place and retain the lens in attachment to the reflector.

A lighting element includes a circuit board defining a longitudinal axis and including at least one illuminator thereon, a housing having at least one flexible element in the optical pathway of the at least one illuminator and in register with the at least one illuminator on the circuit board, and with opposing axial ends.