Patent application number | Description | Published |
20130094222 | Reflector for light sources and light source device - A reflector for light radiation sources, the reflector taking the form, for example, of a cup centered around a main axis with a bottom opening for a source of light radiation, the reflector including a cup-shaped base portion extending from the bottom opening to an outer rim, and an annular portion surrounding the outer rim. The annular portion may be telescopically coupled to the base portion and may be moveable with respect to the base portion along the main axis in order to vary the length over which the annular portion extends along the main axis with respect to the outer rim of the base portion. | 04-18-2013 |
20130148349 | Lighting Device and Associated Method - A lighting device comprises a housing carrying a linear array of light radiation sources and one or more elongated diffusive screens arranged facing the array of light sources so as to be passed through by the light radiation. The screen or screens have a pattern of geometric features for producing a radiation pattern of the light radiation emitted by the lighting device as a result of passing through the diffusive screen or screens. By replacing the diffusive screen or screens with screens which have a different pattern of geometric features it is possible to vary the radiation pattern of the light radiation emitted by the lighting device. | 06-13-2013 |
20130335964 | LIGHTING MODULE AND CORRESPONDING INTEGRATED LIGHTING DEVICE - A lighting module includes a base structure and a plurality of light points configured to generate light radiation, wherein the light points are coupled to the base structure, wherein the lighting module comprises at least one light point which has a radiation pattern with rotational asymmetry, and wherein the base structure and the light point are configured to couple the light point to the base structure with different orientations. | 12-19-2013 |
20140085887 | Lighting Device - Lighting device, usable for example with LED light sources, comprises a bowl-shaped body having a base surface with a plurality of mounting studs projecting from the base surface, together with one or more boards for the mounting of light radiation sources, provided with holes for the passage of respective mounting studs. The board has pairs of mounting locations for light radiation sources, each pair being arranged on opposite sides of a respective hole so as to be located on opposite sides of the stud which extends through said respective hole. A plurality of reflectors is provided in order to project the light radiation from the device. The reflectors each have an inlet opening for the light radiation and are capable of being mounted on the mounting studs selectively in one of at least two opposite mounting positions in which the inlet opening is placed at one of said mounting locations. | 03-27-2014 |
20140104856 | LIGHTING DEVICE - A lighting device for mounting on a mounting surface may include: a planar solid state lighting module having a light emitting region and peripheral holes for fixing members to the mounting surface to extend therethrough, a peripheral gasket extending along the periphery of the lighting module; the gasket having, at the holes of the lighting module, ear-like extensions having a perforation therein, said ear-like extensions extending inwardly of the gasket to align the perforations therein with the holes in the lighting module, a housing which frames the lighting device with the gasket applied onto the lighting module. The housing has apertures aligned with the holes in the lighting module and the perforations in the ear-like extensions of the gasket, as well as a window to expose the light emitting region of the lighting module, with a light permeable screen which sealingly closes said window. | 04-17-2014 |
20150043207 | LIGHTING DEVICE - A lighting device may include a channel-shaped housing having two ends with a main axis of the housing extending between the ends, a pair of mounting fixtures for a pair of light radiation sources within the housing with the light radiation sources radiating light radiation in opposite directions along the main axis, and a pair of reflectors each facing a respective one of the mounting fixtures to receive light radiation along the main axis and reflect it to the outside of the housing. | 02-12-2015 |
20160091166 | LIGHTING DEVICE AND CORRESPONDING METHOD - A lighting device, such as for example a LED flexible module, includes an elongated profiled body having a mouth portion, a first and a second lateral sides arranged sidewise of the mouth portion and a web side opposed the mouth portion. The profiled body includes a light-permeable portion, extending between the mouth portion and the first lateral side, and a light-impermeable portion extending between the second lateral side and the web side. | 03-31-2016 |
Patent application number | Description | Published |
20090174433 | PECL/LVPECL input buffer that employs positive feedback to provide input hysteresis, symmetric headroom, and high noise immunity - A CMOS based input buffer suitable for use with PECL or LVPECL voltage levels is described. The input buffer utilizes a differential voltage comparator that employs positive feedback to provide input hysteresis, symmetric headroom and increased noise immunity. In addition, the input buffer can utilize a reference voltage that is substantially constant over process, voltage, and temperature. | 07-09-2009 |
20090174451 | Method of stitching scan flipflops together to form a scan chain with a reduced wire length - The scan flipflops on a semiconductor chip are stitched together to form one or more scan chains, located in one or more standard cell placement regions, after the optimal physical location of each scan flip-flop has been determined. As a result, the total length of the scan chain wires is substantially reduced, thereby reducing on-chip wiring congestion, flip-flop load capacitance, and flipflop power dissipation. | 07-09-2009 |
20090177424 | 3-Dimensional method for determining the clock-to-Q delay of a flipflop - A 3-dimensional flipflop timing model is described, which allows a flipflop to be presented with a smaller setup time in comparison to a 2-dimensional timing model. Because of this, fewer timing errors will be encountered during chip timing analysis, fewer timing errors will have to be fixed, and the user can often avoid redesigning logic that fails to meet its timing specs, thus saving valuable design time. Furthermore, in many cases, the user can avoid the necessity of using larger standard cells that employ larger transistor sizes, thus minimizing chip size and chip power dissipation. | 07-09-2009 |
20090261865 | High voltage CMOS output buffer constructed from low voltage CMOS transistors - A high voltage CMOS output buffer is constructed from low voltage CMOS transistors. The output buffer employs a series of unique CMOS inverter stages, each of which contains a switched PMOS transistor, one or more voltage drop blocks, and a switched NMOS transistor. The voltage drop blocks are composed of stacked PMOS transistors that are diode-connected—i.e., the PMOS gate terminal is connected to the PMOS drain terminal, and the PMOS body (N-well) terminal is connected to the PMOS source terminal. The diode-connected PMOS transistors reduce the voltage across the transistor gate oxide to a safe value, for all internal PMOS/NMOS transistors inside the CMOS output buffer. | 10-22-2009 |