A light guide element and a lamp are provided. The light guide element includes a light-incident surface, a light-emitting surface, an outer surface and an inner surface. The light-incident surface has a first outer peripheral edge and a first inner peripheral edge. The light-emitting surface is opposite to the light-incident surface and has a second outer peripheral edge and a second inner peripheral edge. The outer surface connects the first outer peripheral edge and the second outer peripheral edge. The inner surface connects the first inner peripheral edge and the second inner peripheral edge. A first opening defined by the inner surface adjacent to the first inner peripheral edge is larger than a second opening defined by the inner surface adjacent to the second inner peripheral edge.

A lamp includes a seat unit, a lampshade, two bulb connectors, and a circuit unit having two wires. The seat unit has outer and inner seats, and opposite bulb seats molded as one piece with the inner seat. Each of the bulb seats has a guiding hole and a mounting surface. The mounting surfaces respectively face toward two directions that are transverse to each other. Each bulb connector has a main portion formed with a connecting opening for insertion of a bulb, and a fixing portion fixedly connected to a respective one of the bulb seats, such that the connecting openings are oriented respectively toward the two directions. The wires respectively extend through the guiding holes for being electrically connected to the bulb connectors.

A method for performing self-diagnosis in a light fixture. The method includes receiving data corresponding to a plurality of environmental conditions from one or more sensors. The one or more sensors are positioned in a sensor cavity of a light fixture wherein a plurality of conduits provide a sealed path between a plurality of LED modules of the light fixture and the sensor cavity such that the LED modules, the conduits and the sensor cavity exhibit a plurality of environmental conditions. The method also includes analyzing the data to determine if at least one of the plurality of environmental conditions has undergone one or more of the following changes: a change so that a value of the at least one environmental condition exceeds a threshold level, a threshold change compared to a corresponding constant level, or a rate of change that is greater than a threshold value.

Aspects are described for dual-distribution lighting devices. For example, a dual-distribution lighting device includes a forward-throw module with a first lighting element that can provide directional light, a wide-throw module with a second lighting element that can provide light with a wide distribution, an interface element that can to receive input, and a processing device. In response to the input being received via the interface element, the processing device deactivates one of the forward-throw and wide-throw modules and activates the other of the forward-throw and wide-throw modules, thereby causing the dual-distribution lighting device to switch between providing directional light and a wide distribution of light.

A lightbar with additional periphery lights for further functionality. The periphery lights can be operated through LEDs positioned behind the primary emergency lights of the lightbar. The LEDs can transmit light through a light transmissive material to the periphery. These periphery lights can be operated independently of the primary emergency lights to provide identification during non-emergency situations or additional information for coordinating emergency response.

The invention relates to an illumination device having a housing with a light-exit region and an assembly element arranged below the light-exit region. A conversion element is arranged on the assembly element and designed to convert pump light into emission light in a surface region of the conversion element and to emit said emission light via the surface region. Two surface-emitting laser apparatuses for producing the pump light are arranged opposite one another on the assembly region and are arranged laterally offset to the light-exit region and arranged at a distance from the conversion element and at a distance therefrom. A reflector element connected to the housing is arranged above laser apparatuses and designed to reflect the pump light emitted by the laser apparatuses onto the surface region. The assembly element serves the purpose of heat dissipation for the heat produced and, at the same time, substantial thermal decoupling from the conversion element.

A lightbar with additional periphery lights for further functionality. The periphery lights can be operated through LEDs positioned behind the primary emergency lights of the lightbar. The LEDs can transmit light through a light transmissive material to the periphery. These periphery lights can be operated independently of the primary emergency lights to provide identification during non-emergency situations or additional information for coordinating emergency response.

According to an aspect, an illumination system includes a plurality of illumination devices each having a light adjustment function. Each of the illumination devices has a first mode in which all of the illumination devices are not subject to light adjustment control, and a second mode in which another illumination device of the illumination devices is subject to the light adjustment control. In the second mode, the illumination device is controlled to be in a light adjustment state different from a light adjustment state in the first mode.

A linear light fixture is provided which includes a housing body onto which a bezel is attached. Semiconductor LEDs or other light emitting source that produce light when electrically powered are located behind a lens that is secured to the housing body by the bezel. One or more incandescent light bulbs that include an electric filament that produce light when electrified as well as one or more fluorescent bulbs that produce light based at least in part on the electrification and illumination of a plasma or gas can also be used as a source of illumination. For example, the linear light fixture can further include a driver housing that includes a driver housing cover to permit access to at least one driver and/or battery backup components located within the driver housing. There is also at least one window in the bezel which permits illumination of an area or object.

A light fixture includes an enclosure having a top side and an opposing underside, and a luminaire module. The luminaire module includes a panel, a plurality of LEDs, a first reflector, and a second reflector. The panel extends along the opposing underside of the enclosure. The plurality of LEDs are coupled to the panel and arranged in at least one row. The at least one row has a first lateral side and a second lateral side. The first reflector is coupled to the panel and disposed along the first lateral side of the plurality of LEDs. The second reflector are coupled to the panel and disposed along the second lateral side of the plurality of LEDs. The panel is releasably attached to the enclosure such that replacement of the panel simultaneously replaces the plurality of LEDs, the first reflector, and the second reflector.