A light fixture and directional assistive listening device includes a portable lamp fixture, a parabolic sound membrane, and a light and acoustic transducer assembly. The portable lamp fixture includes a stand, a light socket, and a primary power cord. The primary power cord is electrically connected to the light socket through the stand. The parabolic sound membrane is concentrically attached to the light socket. The light and acoustic transducer assembly is electrically connected to the light socket and concentrically positioned within the parabolic sound membrane. When the light and acoustic transducer assembly is communicably coupled with an external audio device, the light and acoustic transducer is able to output greater clarity of speech and directionality of sound due to the configuration and positioning of the light and acoustic transducer assembly and the parabolic sound membrane.

A driver and a light fixture including an LED array and the driver. The driver including a microprocessor, at least one capacitor, a charging circuit, and discharging circuit. The charging circuit is controlled by the microprocessor and charges the at least one capacitor to a voltage such as at least two times a forward voltage of the LED array. The discharging circuit is controlled by the microprocessor and delivers power from the at least one capacitor to the LED array in discrete pulses.

Embodiments include a lighting device that includes a first illumination source comprising a light-emitting diode (LED) of a first color that generates a first light output with a first melanopic ratio of 0.4 to 1.2, and a second illumination source comprising an LED of a second color that generates a second light output with a second melanopic ratio that is less than the first melanopic ratio. The lighting device also includes a light distribution unit for directing and distributing illumination generated by the first and second illumination sources, where at least one of the first illumination source and the second illumination source is affixed to the light distribution unit, and where the first and second illumination sources are oriented relative to one another such that their respective light outputs are directed in different directions.

What is needed is a system that a system that may allow a consumer to adapt a light source to customize a room. Accordingly, the present disclosure relates to a system that may be adapted to a range of features, wherein the system may convey a preference for a sport, sports team, college, or other source of fandom. In some embodiments, a sport cover may be integrated with a feature, such as a fan, wall mount, chandelier, or lamp. In some aspects, the sport cover may comprise a range of customizable attributes, such as colors, sounds, images, and sport cover types. According to the present disclosure, a consumer may change out the light fixture on the fan to with an adaptable or convertible sports cover.

An illumination device includes: a light source; and a laminate that displays a predetermined design on a front surface by transmitting light emitted by the light source forward in a shape of the predetermined design. The laminate includes: a display layer that includes the front surface and is light transmissive; a reflective layer that includes a first opening having the shape of the predetermined design, is disposed between the display layer and the light source, and reflects external light transmitted from the front surface of the display layer rearward; a light blocking layer that includes a second opening having the shape of the predetermined design and overlapping the first opening, is disposed between the reflective layer and the light source, and blocks light; and a light diffusion layer that diffuses light and is disposed between the reflective layer and the light source to overlap the second opening.

An illumination device includes: a light source; and a laminate that displays a predetermined design on a front surface by transmitting light emitted by the light source forward in a shape of the predetermined design. The laminate includes: a display layer that includes the front surface and is light transmissive; a reflective layer that includes a first opening having the shape of the predetermined design, is disposed between the display layer and the light source, and reflects external light transmitted from the front surface of the display layer rearward; a light blocking layer that includes a second opening having the shape of the predetermined design and overlapping the first opening, is disposed between the reflective layer and the light source, and blocks light; and a light diffusion layer that diffuses light and is disposed between the reflective layer and the light source to overlap the second opening.

A lighting device comprises at least two groups of light-emitting diodes and an electronic circuit for controlling said light-emitting diodes. The electronic circuit is configured to control each group of light-emitting diodes separately. The beam characteristic of at least one of the groups of light-emitting diodes differs from the beam characteristic of at least one of the other groups of light-emitting diodes. As a result, the light distribution of the lighting device can be switched electronically.

An illumination device includes; a light source; and a laminate that displays a predetermined design on a front surface by transmitting light emitted by the light source forward in a shape of the predetermined design. The laminate includes: a display layer that includes the front surface and is light transmissive; a reflective layer that includes a first opening having the shape of the predetermined design, is disposed between the display layer and the light source, and reflects external light transmitted from the front surface of the display layer rearward; a light blocking layer that includes a second opening having the shape of the predetermined design and overlapping the first opening, is disposed between the reflective layer and the light source, and blocks light; and a light diffusion layer that diffuses light and is disposed between the reflective layer and the light source to overlap the second opening.

An illumination device includes; a light source; and a laminate that displays a predetermined design on a front surface by transmitting light emitted by the light source forward in a shape of the predetermined design. The laminate includes: a display layer that includes the front surface and is light transmissive; a reflective layer that includes a first opening having the shape of the predetermined design, is disposed between the display layer and the light source, and reflects external light transmitted from the front surface of the display layer rearward; a light blocking layer that includes a second opening having the shape of the predetermined design and overlapping the first opening, is disposed between the reflective layer and the light source, and blocks light; and a light diffusion layer that diffuses light and is disposed between the reflective layer and the light source to overlap the second opening.

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.