An outdoor lighting device is disclosed having a vertical stand and a curved rigid housing disposed about a top of the stand coupled to a power source, wherein the curved housing has a curved planar surface having a radius of curvature. The curved housing has an outside side and an inner side, the inner side having a curved COB LED assembly with a radius of curvature that is substantially the same as the radius of curvature of the housing. A gear is coupled to the stand and the curved housing and is configured to permit the curved housing to be rotated 360 degrees radially with respect to the stand and 90 degrees vertically with respect to the stand.

A solar powered lamp attachment assembly for reducing energy consumption includes a base having an inner wall with a bottom end attached to a socket. The socket inserts into a porcelain lamp holder. An outer wall has an outer surface and a top surface. A plurality of lights is positioned on the top surface of the outer wall. A level switch on the outer surface includes a low button, a high button and a mid button. A solar panel is provides power to the plurality of lights. Additionally, a main switch is positioned on the outer surface of the outer wall of the base. The main switch includes a night button to enable a photoelectric cell, an actuator button to close or open electric power from the solar panel to the plurality of lights, and a plus button to enable a plurality of extra lights.

An electronic module can include a first housing defining a housing cavity, the first housing defining a first end and a second end positioned opposite from the first end, the first end defined by a shaft of the first housing, the shaft defining external threading, the first housing defining a housing opening to the housing cavity at the second end; an LED lamp board positioned within the housing cavity, the LED lamp board configured to emit light through the housing opening; a power supply driving module positioned within the housing cavity at least partially between the LED lamp board and the shaft; and a first concentric terminal connected in electrical communication with the power supply driving module, the first concentric terminal extending at least partially through the shaft, the first concentric terminal configured to rotatably connect in electrical communication with a second concentric terminal.

A mobile lighting device is disclosed with extendable boom sections. The boom sections are stored in a horizontal position and then pivot to a vertical position before being extended upward. A light section is positioned at the uppermost end of the last extendable boom section. A variety of safety features are also disclosed.

A power tool includes: a motor; an output shaft that is rotated by a rotational force of the motor; a chip-on-board light emitting diode disposed around the output shaft; and a suppression device configured to suppress a temperature of the chip-on-board light emitting diode to a predetermined allowable value or less.

A portable light includes an elongate body having a first end, a second end opposite the first end, a longitudinal axis extending through the first and second ends, and a locking recess between the first end and the second end. The portable light further includes a movable handle that is movable between a first position and a second position along the longitudinal axis of the elongate body, the movable handle defining a grip axis that is parallel to and offset from the longitudinal axis of the elongate body. The portable light further includes an actuator positioned on the movable handle, the actuator operatively coupled to a locking pin that selectively engages the locking recess.

A mobile lighting device is disclosed with extendable boom sections. The boom sections are stored in a horizontal position and then pivot to a vertical position before being extended upward. A light section is positioned at the uppermost end of the last extendable boom section. A variety of safety features are also disclosed.

A pole mounted lantern comprises a lantern housing mounted on a top of a pole. A slot extends through the lantern housing. A circuit board is located in the lantern housing and carries light emitting diodes (LEDs). A lens is associated with the lantern housing and circumscribes the LEDs. The circuit board has a portion extending to the slot and exposed to an exterior of the lantern housing and ambient conditions outside of the lantern housing. The circuit board is configured to conduct heat from the LEDs inside the lantern housing and out of the lantern housing through the slot.

An underwater light having a replaceable light-emitting diode (LED) module and cord assembly is provided. The underwater light includes a lens, a bezel, a screw, a cable attachment assembly, a mounting flange, a rear housing, a fastening assembly, an internal lens, a printed circuit board (PCB) including light-emitting diodes (LEDs) mounted thereon, a heat sink, and an electronics assembly. The assembly of the underwater light provides for the dissipation of heat away from the PCB thereby cooling the LEDs and electronic components mounted thereon. The electrically non-conductive nature of the exterior components of the underwater light permit the underwater light to be installed in any location in a pool or spa. Since the exterior of the underwater light is electrically non-conductive, no specific bonding or grounding of the underwater light is necessary.

An apparatus, system, and method for lighting effects, including simulating a flame. A three dimensional carrier includes an array of a plurality of light sources distributed on it. A control circuit coordinates on/off of the light sources in a manner to simulate a jumping flame. In one embodiment, the three dimensional carrier and LEDs are encapsulated in an at least partially light transmissive cover. This light modular engine includes a control circuit and an interface to electrical power. The system can include the light engine in a light fixture such as an architectural fixture. The methodology can include a sequence of on/off and brightness variations for the array of light sources.