A sound lamp includes an illuminating device including a circuit board, a single-piece controller, and sixteen light emitting members. The single-piece controller has sixteen legs. Each of the light emitting members has a first end and a second end. The first ends of the light emitting members are connected in parallel. The second end of each of the light emitting members is electrically connected with one of the legs of the single-piece controller. The single-piece controller controls lighting sequences of the light emitting members. Thus, the single-piece controller controls the light emitting members, such that the light emitting members are brightened gradually and dimmed gradually at different cycles, so as to simulate a real flame of an oil kettle.

A light module for a motor vehicle headlight, including at least two light sources, two optical elements, respectively configured for guiding light rays emitted by a light source, and an attachment support, against which the optical elements and the light sources are disposed. The optical elements include at least one first optical element associated with a first light source and one second optical element associated with a second light source. The light module includes a frame for retaining the optical elements on the attachment support.

A lamp assembly for a vehicle comprising a housing, a reflector mounted in the housing, a light source, a printed circuit board or PCB mounted on a heatsink of the lamp assembly and coupled to the light source to control operation of the light source. The PCB has a first connector for coupling to a second connector comprising a body having a plurality of resilient or elastic arms that each have a detent for locking the connector to the component and retain electrical contact with the PCB. The wall of the heatsink defines an aperture for receiving the second connector and provides a locking surface that deflects the arms towards the body while engaging and cooperating with the detests to lock the connector to the PCB. The free end of the arms extend beyond the mounting wall and are actuated to unlock the connector from the PCB.

A lighting module having a heat sink and at least one light source supported by the heat sink. A printed circuit board is also supported on the heat sink and electrically coupled to the at least one light source with at least one conductor. The heat sink is folded or formed to define a conductor protector for protecting the at least one conductor and has at least one wall that is situated in operative relationship with the at least one conductor in order to shield or protect the at least one conductor.

A luminaire that includes a heat spreader, a heat sink diametrically outboard of the heat spreader, an optic retained by the heat spreader, a light source disposed on the front side of the heat spreader, and a power conditioner disposed on the heat spreader. The power conditioner is disposed on the same side of the heat spreader as the light source. The heat sink includes fins that alternate with adjacently disposed and radially oriented recesses.

A shield for a lighting fixture includes a panel that is optically transparent and a screen attached to the panel. The screen has opaque segments, where the opaque segments have gaps therebetween. The screen is screen printed onto the panel. The opaque segments are distributed on the panel in a pattern.

A shield for a lighting fixture includes a panel that is optically transparent and a screen attached to the panel. The screen has opaque segments, where the opaque segments have gaps therebetween. The screen is screen printed onto the panel. The opaque segments are distributed on the panel in a pattern.

A light emitting device that includes: a plurality of light emitting elements arranged at different locations in a common plane, each light emitting element including: at least one layer of a semiconductor material; a first electrical terminal located at a first location; a second electrical terminal located at a second location; and a third electrical terminal located at a third location; a first electrode layer including one or more electrodes; a second electrode layer including one or more electrodes; a third electrode layer including one or more electrodes; a first electrically insulating layer disposed between the plurality of light emitting elements and also disposed between the first and second electrode layers; and a second electrically insulating layer disposed between the plurality of light emitting elements and also disposed between the second and third electrode layers.

An inductive illumination structure of a lighting device is disclosed. The lighting device includes a main body having a lower accommodating chamber and an upper accommodating chamber and a mounting base vertically connected to the main body. The inductive illumination structure includes a moving object sensing unit, a lighting unit, and a signal processing unit. The moving object sensing unit is disposed inside the lower accommodating chamber of the main body, and includes a compartment seat having sector spaces and sensors disposed inside the sector spaces, respectively. The lighting unit is disposed inside the upper accommodating chamber of the main body, and includes a multi-segment folding plate and light sources disposed on an outer wall of the multi-segment folding plate. The signal processing unit is disposed inside the mounting base, and is electrically connected to the sensors and the light sources, respectively.

An inductive illumination structure of a lighting device is disclosed. The lighting device includes a main body having a lower accommodating chamber and an upper accommodating chamber and a mounting base vertically connected to the main body. The inductive illumination structure includes a moving object sensing unit, a lighting unit, and a signal processing unit. The moving object sensing unit is disposed inside the lower accommodating chamber of the main body, and includes a compartment seat having sector spaces and sensors disposed inside the sector spaces, respectively. The lighting unit is disposed inside the upper accommodating chamber of the main body, and includes a multi-segment folding plate and light sources disposed on an outer wall of the multi-segment folding plate. The signal processing unit is disposed inside the mounting base, and is electrically connected to the sensors and the light sources, respectively.