The present invention is directed to a lighting assembly configured for use in direct and indirect lighting applications. The lighting assembly may include a channel having a body base and a wall substantially perpendicularly from a side of the body base, and an elongated wing having a slab with a first substantially flat side, and a second side opposite the first substantially flat side from which an arm extends. The lighting assembly may also include a panel having an elongated strip and a raceway positioned at least substantially perpendicular to the elongated strip.

An LED tube lamp with overvoltage protection capability is provided. The LED tube lamp includes a lamp tube, two external connection terminals, a rectifying circuit, a filtering circuit, an LED module, and a protection circuit. The protection circuit is coupled between two input terminals of the LED module and configured to perform overvoltage protection when determining that a voltage level between the two input terminals of the LED module reaches or is higher than a predefined voltage value, wherein the protection circuit includes a diode and the predefined voltage value is in a range of about 40V to about 600V.

A flame effect device (18) for a flame simulator apparatus of an electric fire (10) is provided. The flame effect device (18) comprises a spindle (20) having a longitudinal axis which is in-use rotatable in a flame simulator apparatus; and a plurality of reflector supports (22a,22b,22c,22d,22e), each reflector support (22a,22b,22c,22d,22e) comprising: a reflector support body (32) having at least one reflector mounting portion (28) thereon and a mounting aperture (34) to engage the reflector support (22a,22b,22c,22d,22e) with the spindle (20); and at least one reflector (26) to reflect light from an associated light source (24), wherein the at least one reflector (26) is mounted to the at least one reflector mounting portion (28), the plurality of reflector supports (22a,22b,22c,22d,22e) being engageable with the spindle (20), each reflector support (22a,22b,22c,22d,22e) of the plurality of reflector supports (22a,22b,22c,22d,22e) being selectably positionable along the longitudinal axis of the spindle (20).

A light source module is provided. The light source module includes a lead frame, a light source, a cup part, and a reflector. The light source is disposed on the lead frame, wherein the light source provides a light. The cup part is disposed on the lead frame, wherein the cup part includes an opening, a plurality of thick-wall portions and a plurality of thin-wall portions. The thick-wall portions and the thin-wall portions surround the light source and define a space. The reflector covers the opening. At least a portion of the light is reflected by the reflector, and is emitted through the thick-wall portions and the thin-wall portions.

Methods and apparatus for implementing a control apparatus for a light fixture for externally controlling the current to the LED light emitter of a landscape LED light fixture. In an exemplary embodiment a control apparatus for controlling current to an LED light source in a landscape lighting device includes an LED driver, a user control with a control setting indicator, and a driver housing including setting indicators.

A ring-shaped light-distribution component includes a light-distribution component body that has a ring-shaped accommodation space and a light incident surface and a light emergent surface respectively located on two sides of the light-distribution component body. The ring-shaped accommodation space accommodates at least two light-emitting units distributed along its circumference. An inner wall of the ring-shaped accommodation space is the light incident surface, the light incident surface including an inner light incident surface near the center of the ring light-distribution component and an outer light incident surface away from the center. A deflection angle of light projected by the light-emitting unit and deflected by a portion of the light-distribution component body corresponding to the inner light incident surface is a first deflection angle, and a deflection angle of light deflected by a portion of the light-distribution component body corresponding to the outer light incident surface is a second deflection angle.

A streetlight device includes a power source portion and a lighting portion. The power source portion includes a driving power source, a power source base provided with a receiving space for receiving the driving power source, and a power source upper cover for closing the power source base. The lighting portion is connected at one end of the power source upper cover. The power source upper cover and the power source base are connected with each other through a hinge assembly. The power source upper cover is provided with a power source mounting assembly, and the driving power source is mounted onto the power source upper cover through the power source mounting assembly.

Lighting systems that include an LED and a silicone module designed to contain a lens are described herein.

Lighting systems that include an LED and a silicone module designed to contain a lens are described herein.

The invention provides a laser light installed inside a bulb lamp and a method of assembling a laser light inside a bulb lamp. The laser light comprises a bulb lamp, wherein a fixing support which further has heat dissipation function is coaxially arranged on an LED light board disposed inside the bulb lamp, a laser module is sleeved inside the fixing support. The laser module consists of a lens module, a laser head base, a laser head and a heat dissipating tube. The lens module consists of a focus base, and further, a transparent piece, a grating piece, a lens base, a lens and a lens fixing base accommodated in the lens base, which are sleeved inside the focus base in sequence. A through hole is provided on a portion of a lamp cover corresponding to the laser module and is enclosed by a transparent cap.