Patents by Inventor Simone RASCUNÁ
Simone RASCUNÁ has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20260108945Abstract: The disclosure is directed to wide band-gap semiconductor devices, such as power devices based on silicon carbide or gallium nitride materials. A power device die is attached to a carrier substrate or a base using sintered silver as a die attachment material or layer. The carrier substrate is, in some embodiments, copper plated with silver. The sintered silver die attachment layer is formed by sintering silver nanoparticle paste under a very low temperature, for example, lower than 200° C. and in some embodiments at about 150° C., and with no external pressures applied in the sintering process. The silver nanoparticle is synthesized through a chemical reduction process in an organic solvent. After the reduction process has completed, the organic solvent is removed through evaporation with a flux of inert gas being injected into the solution.Type: ApplicationFiled: December 19, 2025Publication date: April 23, 2026Applicant: STMicroelectronics S.r.l.Inventors: Cristina MANOLA, Rosa Lucia TORRISI, Simone RASCUNÁ, Gabriele BELLOCCHI, Annalinda CONTINO, Giuseppe MACCARONE
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Publication number: 20250241036Abstract: Merged-PiN-Schottky, MPS, device comprising: a substrate of SiC with a first conductivity; a drift layer of SiC with the first conductivity, on the substrate; an implanted region with a second conductivity, extending at a top surface of the drift layer to form a junction-barrier, JB, diode with the substrate; and a first electrical terminal in ohmic contact with the implanted region and in direct contact with the top surface to form a Schottky diode with the drift layer. The JB diode and the Schottky diode are alternated to each other along an axis: the JB diode has a minimum width parallel to the axis with a first value, and the Schottky diode has a maximum width parallel to the axis with a second value smaller than, or equal to, the first value. A breakdown voltage of the MPS device is greater than, or equal to, 115% of a maximum working voltage of the MPS device in an inhibition state.Type: ApplicationFiled: January 17, 2025Publication date: July 24, 2025Applicant: STMICROELECTRONICS S.r.l.Inventors: Simone RASCUNÁ, Mario Giuseppe SAGGIO
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Publication number: 20250234570Abstract: The vertical-conduction electronic power device is formed by a body of wide band gap semiconductor which has a first conductivity type and has a surface, and is formed by a drift region and by a plurality of surface portions delimited by the surface. The electronic device is further formed by a plurality of first implanted regions having a second conductivity type, which extend into the drift region from the surface, and by a plurality of metal portions, which are arranged on the surface. Each metal portion is in Schottky contact with a respective surface portion of the plurality of surface portions so as to form a plurality of Schottky diodes formed by first Schottky diodes and second Schottky diodes, wherein the first Schottky diodes have, at equilibrium, a Schottky barrier having a height different from that of the second Schottky diodes.Type: ApplicationFiled: April 3, 2025Publication date: July 17, 2025Applicant: STMICROELECTRONICS S.R.L.Inventor: Simone RASCUNÁ
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Publication number: 20250176235Abstract: A method for manufacturing a SiC-based electronic device, comprising the steps of: implanting, on a front side of a solid body made of SiC having a conductivity of an N type, dopant species of a P type thus forming an implanted region, which extends in the solid body starting from the front side and has a top surface coplanar with the front side; and generating a laser beam directed towards the implanted region in order to generate heating of the implanted region to temperatures comprised between 1500° C. and 2600° C. so as to form a carbon-rich electrical-contact region at the implanted region. The carbon-rich electrical-contact region forms an ohmic contact.Type: ApplicationFiled: January 30, 2025Publication date: May 29, 2025Applicant: STMicroelectronics International N.V.Inventors: Simone RASCUNÁ, Mario Giuseppe SAGGIO, Giovanni FRANCO
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Patent number: 12302624Abstract: The vertical-conduction electronic power device is formed by a body of wide band gap semiconductor which has a first conductivity type and has a surface, and is formed by a drift region and by a plurality of surface portions delimited by the surface. The electronic device is further formed by a plurality of first implanted regions having a second conductivity type, which extend into the drift region from the surface, and by a plurality of metal portions, which are arranged on the surface. Each metal portion is in Schottky contact with a respective surface portion of the plurality of surface portions so as to form a plurality of Schottky diodes formed by first Schottky diodes and second Schottky diodes, wherein the first Schottky diodes have, at equilibrium, a Schottky barrier having a height different from that of the second Schottky diodes.Type: GrantFiled: February 15, 2024Date of Patent: May 13, 2025Assignee: STMICROELECTRONICS S.R.L.Inventor: Simone Rascuná
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Publication number: 20250107121Abstract: Method of forming a metal-semiconductor contact, comprising the steps of: forming, on a semiconductor body having a first electrical conductivity, a first metal layer; performing a thermal treatment of at least a portion of the first metal layer by a LASER beam having an incidence direction on the first metal layer, including heating the portion of the first metal layer, along said incidence direction, at a temperature between 1500° C. and 3000° C.Type: ApplicationFiled: September 18, 2024Publication date: March 27, 2025Applicant: STMicroelectronics International N.V.Inventors: Gabriele BELLOCCHI, Simone RASCUNÁ, Valeria PUGLISI, Paolo BADALÁ
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Patent number: 12249624Abstract: A method for manufacturing a SiC-based electronic device, comprising the steps of: implanting, on a front side of a solid body made of SiC having a conductivity of an N type, dopant species of a P type thus forming an implanted region, which extends in the solid body starting from the front side and has a top surface coplanar with the front side; and generating a laser beam directed towards the implanted region in order to generate heating of the implanted region to temperatures comprised between 1500° C. and 2600° C. so as to form a carbon-rich electrical-contact region at the implanted region. The carbon-rich electrical-contact region forms an ohmic contact.Type: GrantFiled: April 8, 2021Date of Patent: March 11, 2025Assignee: STMICROELECTRONICS S.R.L.Inventors: Simone Rascuná, Mario Giuseppe Saggio, Giovanni Franco
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Publication number: 20250063785Abstract: An electronic device includes a solid body of SiC having a surface and having a first conductivity type. A first implanted region and a second implanted region have a second conductivity type and extend into the solid body in a direction starting from the surface and delimit between them a surface portion of the solid body. A Schottky contact is on the surface and in direct contact with the surface portion. Ohmic contacts are on the surface and in direct contact with the first and second implanted regions. The solid body includes an epitaxial layer including the surface portion and a bulk portion. The surface portion houses a plurality of doped sub-regions which extend in succession one after another in the direction, are of the first conductivity type, and have a respective conductivity level higher than that of the bulk portion.Type: ApplicationFiled: August 29, 2024Publication date: February 20, 2025Applicant: STMicroelectronics S.r.l.Inventors: Simone RASCUNÁ, Claudio CHIBBARO
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Patent number: 12224321Abstract: Merged-PiN-Schottky, MPS, device comprising: a substrate of SiC with a first conductivity; a drift layer of SiC with the first conductivity, on the substrate; an implanted region with a second conductivity, extending at a top surface of the drift layer to form a junction-barrier, JB, diode with the substrate; and a first electrical terminal in ohmic contact with the implanted region and in direct contact with the top surface to form a Schottky diode with the drift layer. The JB diode and the Schottky diode are alternated to each other along an axis: the JB diode has a minimum width parallel to the axis with a first value, and the Schottky diode has a maximum width parallel to the axis with a second value smaller than, or equal to, the first value. A breakdown voltage of the MPS device is greater than, or equal to, 115% of a maximum working voltage of the MPS device in an inhibition state.Type: GrantFiled: December 7, 2023Date of Patent: February 11, 2025Assignee: STMICROELECTRONICS S.r.l.Inventors: Simone Rascuná, Mario Giuseppe Saggio
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Patent number: 12125933Abstract: A device for detecting UV radiation, comprising: a SiC substrate having an N doping; a SiC drift layer having an N doping, which extends over the substrate; a cathode terminal; and an anode terminal. The anode terminal comprises: a doped anode region having a P doping, which extends in the drift layer; and an ohmic-contact region including one or more carbon-rich layers, in particular graphene and/or graphite layers, which extends in the doped anode region. The ohmic-contact region is transparent to the UV radiation to be detected.Type: GrantFiled: March 9, 2023Date of Patent: October 22, 2024Assignee: STMICROELECTRONICS S.r.l.Inventors: Simone Rascuná, Gabriele Bellocchi, Paolo Badalá, Isodiana Crupi
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Publication number: 20240243122Abstract: An integrated MOSFET device is formed in a body of silicon carbide and with a first type of conductivity. The body accommodates a first body region, with a second type of conductivity; a JFET region adjacent to the first body region; a first source region, with the first type of conductivity, extending into the interior of the first body region; an implanted structure, with the second type of conductivity, extending into the interior of the JFET region. An isolated gate structure lies partially over the first body region, the first source region and the JFET region. A first metallization layer extends over the first surface and forms, in direct contact with the implanted structure and with the JFET region, a JBS diode.Type: ApplicationFiled: January 18, 2024Publication date: July 18, 2024Applicant: STMICROELECTRONICS S.R.L.Inventors: Mario Giuseppe SAGGIO, Simone RASCUNÁ
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Publication number: 20240186424Abstract: The vertical-conduction electronic power device is formed by a body of wide band gap semiconductor which has a first conductivity type and has a surface, and is formed by a drift region and by a plurality of surface portions delimited by the surface. The electronic device is further formed by a plurality of first implanted regions having a second conductivity type, which extend into the drift region from the surface, and by a plurality of metal portions, which are arranged on the surface. Each metal portion is in Schottky contact with a respective surface portion of the plurality of surface portions so as to form a plurality of Schottky diodes formed by first Schottky diodes and second Schottky diodes, wherein the first Schottky diodes have, at equilibrium, a Schottky barrier having a height different from that of the second Schottky diodes.Type: ApplicationFiled: February 15, 2024Publication date: June 6, 2024Applicant: STMICROELECTRONICS S.R.L.Inventor: Simone RASCUNÁ
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Patent number: 11949025Abstract: The vertical-conduction electronic power device is formed by a body of wide band gap semiconductor which has a first conductivity type and has a surface, and is formed by a drift region and by a plurality of surface portions delimited by the surface. The electronic device is further formed by a plurality of first implanted regions having a second conductivity type, which extend into the drift region from the surface, and by a plurality of metal portions, which are arranged on the surface. Each metal portion is in Schottky contact with a respective surface portion of the plurality of surface portions so as to form a plurality of Schottky diodes formed by first Schottky diodes and second Schottky diodes, wherein the first Schottky diodes have, at equilibrium, a Schottky barrier having a height different from that of the second Schottky diodes.Type: GrantFiled: July 8, 2021Date of Patent: April 2, 2024Assignee: STMICROELECTRONICS S.R.L.Inventor: Simone Rascuná
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Patent number: 11916066Abstract: An integrated MOSFET device is formed in a body of silicon carbide and with a first type of conductivity. The body accommodates a first body region, with a second type of conductivity; a JFET region adjacent to the first body region; a first source region, with the first type of conductivity, extending into the interior of the first body region; an implanted structure, with the second type of conductivity, extending into the interior of the JFET region. An isolated gate structure lies partially over the first body region, the first source region and the JFET region. A first metallization layer extends over the first surface and forms, in direct contact with the implanted structure and with the JFET region, a JBS diode.Type: GrantFiled: February 2, 2022Date of Patent: February 27, 2024Assignee: STMicroelectronics S.r.l.Inventors: Mario Giuseppe Saggio, Simone Rascuná
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Patent number: 11869944Abstract: Merged-PiN-Schottky, MPS, device comprising: a substrate of SiC with a first conductivity; a drift layer of SiC with the first conductivity, on the substrate; an implanted region with a second conductivity, extending at a top surface of the drift layer to form a junction-barrier, JB, diode with the substrate; and a first electrical terminal in ohmic contact with the implanted region and in direct contact with the top surface to form a Schottky diode with the drift layer. The JB diode and the Schottky diode are alternated to each other along an axis: the JB diode has a minimum width parallel to the axis with a first value, and the Schottky diode has a maximum width parallel to the axis with a second value smaller than, or equal to, the first value. A breakdown voltage of the MPS device is greater than, or equal to, 115% of a maximum working voltage of the MPS device in an inhibition state.Type: GrantFiled: July 13, 2021Date of Patent: January 9, 2024Assignee: STMICROELECTRONICS S.R.L.Inventors: Simone Rascuná, Mario Giuseppe Saggio
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Publication number: 20230282757Abstract: A device for detecting UV radiation, comprising: a SiC substrate having an N doping; a SiC drift layer having an N doping, which extends over the substrate; a cathode terminal; and an anode terminal. The anode terminal comprises: a doped anode region having a P doping, which extends in the drift layer; and an ohmic-contact region including one or more carbon-rich layers, in particular graphene and/or graphite layers, which extends in the doped anode region. The ohmic-contact region is transparent to the UV radiation to be detected.Type: ApplicationFiled: March 9, 2023Publication date: September 7, 2023Applicant: STMICROELECTRONICS S.r.l.Inventors: Simone RASCUNÁ, Gabriele BELLOCCHI, Paolo BADALÁ, Isodiana CRUPI
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Patent number: 11670685Abstract: A method for manufacturing a SiC-based electronic device, that includes implanting, at a front side of a solid body of SiC having a conductivity of N type, dopant species of P type, thus forming an implanted region that extends in depth in the solid body starting from the front side and has a top surface co-planar with said front side; and generating a laser beam directed towards the implanted region in order to generate heating of the implanted region at temperatures comprised between 1500° C. and 2600° C. so as to form an ohmic contact region including one or more carbon-rich layers, for example graphene and/or graphite layers, in the implanted region and, simultaneously, activation of the dopant species of P type.Type: GrantFiled: April 8, 2021Date of Patent: June 6, 2023Assignee: STMICROELECTRONICS S.R.L.Inventors: Simone Rascuná, Paolo Badalá, Anna Bassi, Gabriele Bellocchi
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Patent number: 11605751Abstract: A device for detecting UV radiation, comprising: a SiC substrate having an N doping; a SiC drift layer having an N doping, which extends over the substrate; a cathode terminal; and an anode terminal. The anode terminal comprises: a doped anode region having a P doping, which extends in the drift layer; and an ohmic-contact region including one or more carbon-rich layers, in particular graphene and/or graphite layers, which extends in the doped anode region. The ohmic-contact region is transparent to the UV radiation to be detected.Type: GrantFiled: June 10, 2021Date of Patent: March 14, 2023Assignee: STMICROELECTRONICS S.R.L.Inventors: Simone Rascuná, Gabriele Bellocchi, Paolo Badalá, Isodiana Crupi
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Publication number: 20220157807Abstract: An integrated MOSFET device is formed in a body of silicon carbide and with a first type of conductivity. The body accommodates a first body region, with a second type of conductivity; a JFET region adjacent to the first body region; a first source region, with the first type of conductivity, extending into the interior of the first body region; an implanted structure, with the second type of conductivity, extending into the interior of the JFET region. An isolated gate structure lies partially over the first body region, the first source region and the JFET region. A first metallization layer extends over the first surface and forms, in direct contact with the implanted structure and with the JFET region, a JBS diode.Type: ApplicationFiled: February 2, 2022Publication date: May 19, 2022Applicant: STMICROELECTRONICS S.R.L.Inventors: Mario Giuseppe SAGGIO, Simone RASCUNÁ
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Patent number: 11270993Abstract: An integrated MOSFET device is formed in a body of silicon carbide and with a first type of conductivity. The body accommodates a first body region, with a second type of conductivity; a JFET region adjacent to the first body region; a first source region, with the first type of conductivity, extending into the interior of the first body region; an implanted structure, with the second type of conductivity, extending into the interior of the JFET region. An isolated gate structure lies partially over the first body region, the first source region and the JFET region. A first metallization layer extends over the first surface and forms, in direct contact with the implanted structure and with the JFET region, a JBS diode.Type: GrantFiled: February 3, 2020Date of Patent: March 8, 2022Assignee: STMICROELECTRONICS S.R.L.Inventors: Mario Giuseppe Saggio, Simone Rascuná