A light system having a hollow housing; a light source provided in the housing; means for mounting the housing to a pool wall or floor; and a lens provided at an open end of the housing, having at least a portion configured to modify at least a portion of the light to match, blend in with, or at least compliment the pool wall or floor; and a flange surrounding the periphery of the lens.

The present invention refers to an ultraviolet light lamp/luminaire system to make phosphorescent or fluorescent material shine in a swimming pool or in any body of water characterized in that it consists of the association of a) at least one defined submersible ultraviolet light lamp/luminaire by a sealed tubular casing defining a trailing end and a leading end; the rear end comprises a waterproof electrical power supply socket or plug and the front end comprises a lens with a waterproof seal, and internally houses a panel of a plurality of ultraviolet light emitting diodes (hereinafter UV LEDs) controlled by an electronic circuit control unit for the UV LEDs connected to the waterproof electrical power supply socket or plug and b) fluorescent or phosphorescent material which may be but is not limited to small aggregate rhinestones, tiles, mosaics, vinyl or fiberglass canvas surface, figures or other objects or accessories, arranged inside the body of water so that they shine in any environment, as long as the ultraviolet light source is on.

A method for wirelessly providing power to a LED includes: receiving an AC input voltage having a first frequency via a cable; generating a first rectified voltage at a first node from the AC input voltage, the first node coupled to a first filtering non-electrolytic capacitor; powering a driver with the first rectified voltage; wirelessly transmitting power by driving a first resonant tank with the driver with a driving voltage at a second frequency higher than the first frequency, the driving voltage having a sinusoidal envelope at the first frequency and approximating a square-wave at the second frequency; receiving the wirelessly transmitted power with a second resonant tank; generating a second rectified voltage at second node from a voltage across the second resonant tank, the second node coupled to a second filtering capacitor; generating a DC voltage from the second rectified voltage; and powering the LED with the DC voltage.

A display device (1) for displaying a decorative object (2), including a case (4) provided with a support element (5) on which an area of interest (3) is defined, inside which the decorative object (2) is likely to be disposed and/or handled. A processing unit generates a command for controlling the illumination properties of a main illumination device (8a) and/or of a secondary illumination device (8b) as a function of criteria concerning the viewer's visual perception of the object (3) and controls the main illumination device (8a) and/or the secondary illumination device (8b) as a function of the command for controlling the properties of the illumination devices (8a, 8b).

A system and method for a pool light. The system has a planar plate, and a niche coupled the plate. The system includes a wire and a light. The light couples to the niche. The system can run on direct current. The system can include an AC/DC converter to convert AC to DC.

A light system having a hollow housing; a light source provided in the housing; means for mounting the housing to a pool wall or floor; and a lens provided at an open end of the housing, having at least a portion configured to modify at least a portion of the light to match, blend in with, or at least compliment the pool wall or floor; and a flange surrounding the periphery of the lens.

An underwater directional light is provided. The directional light includes a lamp assembly, a tube assembly, and a printed circuit board assembly. The lamp assembly includes a housing and a lamp having a plurality of lighting elements. The tube assembly is coupled to the lamp and has a hollow interior. The printed circuit board assembly is mechanically coupled to the tube assembly and electrically coupled to the lamp.

A light display system and device for use in a body of water or other liquid is described. The light display device may be controlled remotely via a control hub and/or control panel, or controlled by internally preprogrammed commands. A plurality of light display devices may be controlled in selected, choreographed sequences to provide various unique visual displays including, for example, geometrical patterns and/or naturalistic patterns giving the impression of organic phenomena such as swarming fireflies, bioluminescent creatures and the like.

A chlorinator system includes a swimming pool chlorinator configured to perform chlorination operations of a salt water pool system. The swimming pool chlorinator includes an electrolysis cell configured to receive a flow of pool water and to electrolyze sodium chloride in the pool water to generate chlorine and control electronics configured to control operations of the swimming pool chlorinator. Additionally, the chlorinator system includes a power source coupler configured to receive alternating current power from an alternating current power source. Further, the chlorinator system includes a synchronous rectifier configured to convert the alternating current power to generate a direct current power source to provide power to the swimming pool chlorinator.

An adapter assembly for securing a luminaire to a niche formed in a wall of a pool or spa. The assembly comprises a mounting bracket having a rear portion shaped and sized to fit within the niche and a front portion comprising a peripheral flange sized to engage the wall surrounding the niche. The mounting bracket enables the luminaire to be secured thereto and be visible from a front side thereof. The assembly includes at least one clamping device attached to the rear portion of the mounting bracket and configured to secure the mounting bracket to the niche. In a preferred embodiment, the clamping device comprises a clamping arm and drive member. The clamping arm is pivotally connected to the mounting bracket such that the mounting bracket is drawn into the niche and the peripheral flange of the mounting bracket is drawn towards the wall surrounding the niche.