Abstract: Described is a built-in electromechanical equipment for controlling devices in a building, comprising a cover plate (10), which is coupled to a functional frame (11), incorporating a socket-holder frame (12); the plate (10) and the functional frame (11) are also coupled to a built-in box (16), which contains a power supply device (30). More specifically, the functional frame (11) has a lower protruding rim (14), on which are positioned a series of sensors and contains an electronic circuit (25), equipped with a series of LEDs (26) and a microcontroller (32), which analyses, controls and manages the LEDs (26), the sensors and a series of communication ports (40, 41, 42) of the electronic circuit (25); moreover, between the plate (10) and the functional frame (11) there is a light guide (22), which is coupled to the LEDs (26) and which is configured to uniformly illuminate the outer surface of the plate (10).

Abstract: An apparatus (11) for the remote control of lighting apparatuses, in particular emergency lighting apparatuses (12), comprising a transmitter apparatus provided with at least one white light source having controlled activation, a receiver device used as a receiver of digital optical signals (16), which integrates a control, programming and management system managed by a software program (14), and a lighting apparatus (12), which incorporates a receiving circuit comprising a receiver photosensor (13); the transmitter apparatus is constituted by a smartphone (11), which actuates optical commands directed at the lighting apparatus (12), in a form of encoded luminous messages or intensity- and duration-controlled sequences of light variations according to a specific optical code and at different levels of luminosity, by means of a modulating process of the switching-on and the switching-off of the light source integrated in said smartphone (11).

Abstract: An emergency power supply for lighting apparatuses and to a lighting apparatus for an emergency power supply. The emergency power supply (1) includes: a power supply (11) provided with at least one main insulation, e.g., transformer, (34), operatively connectable to the network voltage; an accumulator (16) operatively connected to the power supply (11); a flyback power converter (17) including a primary (18) and a secondary (19) provided within at least one additional insulation, e.g., transformer (30). The primary (18) is connected to the accumulator (16) and the secondary (19) is directly connectable, except for the conversion network, to the output of a network power supply (2) and simultaneously to a light source (3).

Abstract: A multifunction electronic power supply for LED lighting appliances. A series of interface ports or connectors, a block for filtering and measuring the voltage and current, connected to the main power supply, an auxiliary power supply, a microcontroller, a flyback converter with isolated output, a circuit for measuring the brightness, a light sensor, which detects the light reflected from the floor and from the objects and/or people present in the area which is illuminated by the lighting appliance, and a LED light source of the lighting appliance, which spreads light in the environment and which is driven by the electronic power supply.

Abstract: A multifunction electronic power supply for LED lighting appliances. A series of interface ports or connectors, a block for filtering and measuring the voltage and current, connected to the main power supply, an auxiliary power supply, a microcontroller, a flyback converter with isolated output, a circuit for measuring the brightness, a light sensor, which detects the light reflected from the floor and from the objects and/or people present in the area which is illuminated by the lighting appliance, and a LED light source of the lighting appliance, which spreads light in the environment and which is driven by the electronic power supply.

Abstract: A watertight lighting fixture, comprising a casing (10), which is closed by a tempered glass (11) at a light emission surface and which has at its ends respective heads (12), connected and fixed to said casing (10); in particular, a slide (14) is placed within said casing (10), on said slide (14) are fixed the wiring terminals (15) of the fixture and below said slide (14) is placed a reflector (16), which is able to spread light outside and which is placed in correspondence of at least one light source, such as at least one neon tube (18) or a plurality of LEDs (17).

Abstract: A lighting apparatus (10) with a brightness control or self-adjustment, comprising an electronic power supply (11) having a brightness self-tuning and a brightness set-point self-calibrator, a sensor (14) for measuring the environment brightness (16) and a control circuit for automatically adjusting the emitted light (18) on the basis of the environment light, so as to keep steady the light in the environment and automatically reduce the emitted light (18) when the environment natural light increases. A method for self-adjusting the environment light sensor (14) allows for obtaining a self-adjusting lighting system on the basis of the natural light in the environment.

Abstract: A lighting apparatus (10) with a brightness control or self-adjustment, comprising an electronic power supply (11) having a brightness self-tuning and a brightness set-point self-calibrator, a sensor (14) for measuring the environment brightness (16) and a control circuit for automatically adjusting the emitted light (18) on the basis of the environment light, so as to keep steady the light in the environment and automatically reduce the emitted light (18) when the environment natural light increases. A method for self-adjusting the environment light sensor (14) allows for obtaining a self-adjusting lighting system on the basis of the natural light in the environment.

Abstract: Lighting fixture (10) with controlled photometric light emission, comprising a LED light source (21), whose operation is ensured by an electronic printed circuit board (20) which is properly sized and designed, and a housing (30) for containing the LED light source (21) and the electronic printed circuit board (20), able to obtain a heat dissipation; in particular, different type of lenses (25, 26, 27) having different surface geometry can be placed over the LED light source (21), said lenses (25, 26, 27) being able to direct the light beam emitted from the LED light source (21), in order to obtain uniform illumination on surfaces having variable geometry.