Patent application number | Description | Published |
20110287363 | HIGH-RESOLUTION PHOTOLITHOGRAPHIC METHOD FOR FORMING NANOSTRUCTURES, IN PARTICULAR IN THE MANUFACTURE OF INTEGRATED ELECTRONIC DEVICES - A photolithographic process, wherein a photosensitive layer is formed on a surface of a body to be defined; the photosensitive layer is exposed through a photolithographic mask having zones with lower transparency and zones with higher transparency so as to obtain exposed portions and shielded portions of the photosensitive layer; selective portions of the photosensitive layer chosen between the exposed portions and the shielded portions of the photosensitive layer are removed; and portions of the body under the selective portions of the photosensitive layer are selectively removed. The composite layer includes photoresist and carbon nanotubes, which are embedded in the photoresist and extend in a direction generally transverse to, and in electrical contact with, the body. | 11-24-2011 |
20110316173 | ELECTRONIC DEVICE COMPRISING A NANOTUBE-BASED INTERFACE CONNECTION LAYER, AND MANUFACTURING METHOD THEREOF - An electronic device including a first region belonging to a semiconductor device having a first surface; a second region having a second surface; and an adhesion layer, set between the first and second regions, including first fibrils each having respective first and second ends. The first fibrils extend between the first and second surfaces and are fixed in a chemico-physical way to the first and second surfaces at the respective first and second ends. | 12-29-2011 |
20120001224 | IGBT TRANSISTOR WITH PROTECTION AGAINST PARASITIC COMPONENT ACTIVATION AND MANUFACTURING PROCESS THEREOF - An IGBT transistor includes a drift region, at least one body region housed in the drift region and having a first type of conductivity, and a conduction region, which crosses the body region in a direction perpendicular to a surface of the drift region and has the first type of conductivity and a lower resistance than the body region. The conduction region includes a plurality of implant regions, arranged at respective depths from the surface of the drift region. | 01-05-2012 |
20120126880 | IGBT DEVICE WITH BURIED EMITTER REGIONS - An embodiment of an IGBT device is integrated in a chip of semiconductor material including a substrate of a first type of conductivity, an active layer of a second type of conductivity formed on an inner surface of the substrate, a body region of the first type of conductivity extending within the active layer from a front surface thereof opposite the inner surface, a source region of the second type of conductivity extending within the body region from the front surface, a channel region being defined within the body region between the source region and the active layer, a gate element insulated from the front surface extending over the channel region, a collector terminal contacting the substrate on a rear surface thereof opposite the inner surface, an emitter terminal contacting the source region and the body region on the front surface, and a gate terminal contacting the gate element. | 05-24-2012 |
20130020714 | CONTACT PAD - A contact pad for an electronic device integrated in a semiconductor material chip is formed from a succession of protruding elements. Each protruding element extends transversally to a main surface of the chip and has a rounded terminal portion. Adjacent pairs protruding elements define an opening which is partially filled with a first conductive material to form a contact structure that is in electrical contact with an integrated electronic device formed in the chip. A layer of a second conductive material is deposited to cover said protruding elements and the contact structures so as to form the contact pad. | 01-24-2013 |
20130099792 | ENHANCED METHOD OF SENSING IONIZATION CURRENT IN SPARK IGNITION INTERNAL COMBUSTION ENGINES AND RELATED SPARK PLUG STRUCTURES - A spark plug, including an insulator embedding a first metallic electrode axially extending therethrough from a high voltage outer end terminal to the center of the inner end of the insulator from which it protrudes; a metallic ground electrode isolated from the first electrode and having an extended inner termination facing toward the first electrode extending from the insulator tip for defining therebetween a spark gap, a resistive element connected to the ground electrode such that upon mounting the spark plug in an internal combustion engine, the ground electrode electrically connects to the engine body through the resistive element; and to a second outer termination of the ground electrode, adapted to constitute an accessible sensing terminal. | 04-25-2013 |
20140084360 | INTEGRATED VERTICAL TRENCH MOS TRANSISTOR - A VTMOS transistor in semiconductor material of a first type of conductivity includes a body region of a second type of conductivity and a source region of the first type of conductivity. A gate region extends into the main surface through the body region and is insulated from the semiconductor material. A region of the gate region extends onto the main surface is insulated from the rest of the gate region. An anode region of the first type of conductivity is formed into said insulated region, and a cathode region of the second type of conductivity is formed into said insulated region in contact with the anode region; the anode region and the cathode region define a thermal diode electrically insulated from the chip. | 03-27-2014 |
20140134807 | IGBT TRANSISTOR WITH PROTECTION AGAINST PARASITIC COMPONENT ACTIVATION AND MANUFACTURING PROCESS THEREOF - An IGBT transistor includes a drift region, at least one body region housed in the drift region and having a first type of conductivity, and a conduction region, which crosses the body region in a direction perpendicular to a surface of the drift region and has the first type of conductivity and a lower resistance than the body region. The conduction region includes a plurality of implant regions, arranged at respective depths from the surface of the drift region. | 05-15-2014 |
20140353576 | INTEGRATED VACUUM MICROELECTRONIC DEVICE AND FABRICATION METHOD THEREOF - An integrated vacuum microelectronic device comprises: a highly doped semiconductor substrate, at least one insulating layer) placed above said doped semiconductor substrate, a vacuum aperture formed within said at least one insulating layer and extending to the highly doped semiconductor substrate, a first metal layer acting as a cathode, a second metal layer placed under said highly doped semiconductor substrate and acting as an anode. The first metal layer is placed adjacent to the upper edge of the vacuum aperture and the vacuum aperture has a width dimension such as the first metal layer remains suspended over the vacuum aperture. | 12-04-2014 |
20150048414 | IGBT DEVICE WITH BURIED EMITTER REGIONS - An embodiment of an IGBT device is integrated in a chip of semiconductor material including a substrate of a first type of conductivity, an active layer of a second type of conductivity formed on an inner surface of the substrate, a body region of the first type of conductivity extending within the active layer from a front surface thereof opposite the inner surface, a source region of the second type of conductivity extending within the body region from the front surface, a channel region being defined within the body region between the source region and the active layer, a gate element insulated from the front surface extending over the channel region, a collector terminal contacting the substrate on a rear surface thereof opposite the inner surface, an emitter terminal contacting the source region and the body region on the front surface, and a gate terminal contacting the gate element. | 02-19-2015 |