Patents by Inventor Ivan Venegoni

Ivan Venegoni 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).

  • Patent number: 12021046
    Abstract: A method of manufacturing a redistribution layer includes: forming an insulating layer on a wafer, delimited by a top surface and a bottom surface in contact with the wafer; forming a conductive body above the top surface of the insulating layer; forming a first coating region extending around and above the conductive body, in contact with the conductive body, and in contact with the top surface of the insulating layer in correspondence of a bottom surface of the first coating region; applying a thermal treatment to the wafer in order to modify a residual stress of the first coating region, forming a gap between the bottom surface of the first coating region and the top surface of the insulating layer; forming, after applying the thermal treatment, a second coating region extending around and above the first coating region, filling said gap and completely sealing the first coating region.
    Type: Grant
    Filed: September 14, 2022
    Date of Patent: June 25, 2024
    Assignee: STMICROELECTRONICS S.r.l.
    Inventors: Paolo Colpani, Samuele Sciarrillo, Ivan Venegoni, Francesco Maria Pipia, Simone Bossi, Carmela Cupeta
  • Patent number: 11587866
    Abstract: A method of manufacturing an integrated electronic device including a semiconductor body and a passivation structure including a frontal dielectric layer bounded by a frontal surface. A hole is formed extending into the frontal surface and through the frontal dielectric layer. A conductive region is formed in the hole. A barrier layer is formed in the hole and extends into the hole. A first coating layer covers a top and sides of a redistribution region of the conductive region and a second coating layer covers is formed covering the first coating layer. A capillary opening is formed extending into the first and second coating layers to the barrier layer. A cavity is formed between the redistribution region and the frontal surface and is bounded on one side by the first coating layer and on the other by the barrier structure by passing an aqueous solution through the capillary opening.
    Type: Grant
    Filed: August 21, 2020
    Date of Patent: February 21, 2023
    Assignee: STMICROELECTRONICS S.r.l.
    Inventors: Francesco Maria Pipia, Ivan Venegoni, Annamaria Votta, Francesca Milanesi, Samuele Sciarrillo, Paolo Colpani
  • Publication number: 20230005848
    Abstract: A method of manufacturing a redistribution layer includes: forming an insulating layer on a wafer, delimited by a top surface and a bottom surface in contact with the wafer; forming a conductive body above the top surface of the insulating layer; forming a first coating region extending around and above the conductive body, in contact with the conductive body, and in contact with the top surface of the insulating layer in correspondence of a bottom surface of the first coating region; applying a thermal treatment to the wafer in order to modify a residual stress of the first coating region, forming a gap between the bottom surface of the first coating region and the top surface of the insulating layer; forming, after applying the thermal treatment, a second coating region extending around and above the first coating region, filling said gap and completely sealing the first coating region.
    Type: Application
    Filed: September 14, 2022
    Publication date: January 5, 2023
    Applicant: STMICROELECTRONICS S.r.l.
    Inventors: Paolo COLPANI, Samuele SCIARRILLO, Ivan VENEGONI, Francesco Maria PIPIA, Simone BOSSI, Carmela CUPETA
  • Patent number: 11469194
    Abstract: A method of manufacturing a redistribution layer includes: forming an insulating layer on a wafer, delimited by a top surface and a bottom surface in contact with the wafer; forming a conductive body above the top surface of the insulating layer; forming a first coating region extending around and above the conductive body, in contact with the conductive body, and in contact with the top surface of the insulating layer in correspondence of a bottom surface of the first coating region; applying a thermal treatment to the wafer in order to modify a residual stress of the first coating region, forming a gap between the bottom surface of the first coating region and the top surface of the insulating layer; forming, after applying the thermal treatment, a second coating region extending around and above the first coating region, filling said gap and completely sealing the first coating region.
    Type: Grant
    Filed: August 7, 2019
    Date of Patent: October 11, 2022
    Assignee: STMICROELECTRONICS S.R.L.
    Inventors: Paolo Colpani, Samuele Sciarrillo, Ivan Venegoni, Francesco Maria Pipia, Simone Bossi, Carmela Cupeta
  • Publication number: 20200388569
    Abstract: An integrated electronic device includes a semiconductor body and a passivation structure including a frontal dielectric layer bounded by a frontal surface. A conductive region forms a via region, extending into a hole through the frontal dielectric layer. An overlaid redistribution region extends over the frontal surface. A barrier structure includes at least a first barrier region extending into the hole and surrounding the via region. The first barrier region extends over the frontal surface. A first coating layer covers the top and the sides of the redistribution region and a second coating layer covers the first coating layer. A cavity extends between the redistribution region and the frontal surface and is bounded on one side by the first coating layer and on the other by the barrier structure.
    Type: Application
    Filed: August 21, 2020
    Publication date: December 10, 2020
    Inventors: Francesco Maria PIPIA, Ivan VENEGONI, Annamaria VOTTA, Francesca MILANESI, Samuele SCIARRILLO, Paolo COLPANI
  • Patent number: 10790226
    Abstract: An integrated electronic device includes a semiconductor body and a passivation structure including a frontal dielectric layer bounded by a frontal surface. A conductive region forms a via region, extending into a hole through the frontal dielectric layer. An overlaid redistribution region extends over the frontal surface. A barrier structure includes at least a first barrier region extending into the hole and surrounding the via region. The first barrier region extends over the frontal surface. A first coating layer covers the top and the sides of the redistribution region and a second coating layer covers the first coating layer. A cavity extends between the redistribution region and the frontal surface and is bounded on one side by the first coating layer and on the other by the barrier structure.
    Type: Grant
    Filed: July 24, 2018
    Date of Patent: September 29, 2020
    Assignee: STMICROELECTRONICS S.r.l.
    Inventors: Francesco Maria Pipia, Ivan Venegoni, Annamaria Votta, Francesca Milanesi, Samuele Sciarrillo, Paolo Colpani
  • Patent number: 10593625
    Abstract: A semiconductor device includes a passivation layer over a dielectric layer, a via through the passivation layer and the dielectric layer, an interconnection metallization arranged over said at least one via; said passivation layer underlying peripheral portions of said interconnection metallization, and an outer surface coating that coats said interconnection metallization. The coating preferably includes at least one of a nickel or nickel alloy layer and a noble metal layer. The passivation layer is separated from the peripheral portion of the interconnection metallization by a diffusion barrier layer, preferably a titanium or a titanium alloy barrier. The device includes a dielectric layer arranged between the passivation layer and the diffusion barrier layer; and a hollow recess area between the passivation layer and the end portion of the barrier layer and between the passivation layer and the foot of the outer surface coating.
    Type: Grant
    Filed: July 27, 2018
    Date of Patent: March 17, 2020
    Assignee: STMICROELECTRONICS S.R.L.
    Inventors: Samuele Sciarrillo, Ivan Venegoni, Paolo Colpani, Francesca Milanesi
  • Patent number: 10566283
    Abstract: A semiconductor device includes a passivation layer, an interconnection metallization 37 having a peripheral portion over the passivation layer, and an outer surface coating 37 on the interconnection metallization. A diffusion barrier layer comprises an inner planar portion directly on the surface of the passivation layer and a peripheral portion extending along a plane at a vertical height higher than the surface of the passivation layer, so that the peripheral portion forms with the inner portion a step in the barrier layer. The outer surface coating, has a vertical wall with a foot adjacent to the peripheral portion and positioned at the vertical height over the surface of the passivation layer to form a hollow recess area between the surface of the passivation layer and both of the peripheral portion and the foot of the outer surface coating.
    Type: Grant
    Filed: July 27, 2018
    Date of Patent: February 18, 2020
    Assignee: STMICROELECTRONICS S.R.L.
    Inventors: Samuele Sciarrillo, Paolo Colpani, Ivan Venegoni
  • Publication number: 20200051935
    Abstract: A method of manufacturing a redistribution layer includes: forming an insulating layer on a wafer, delimited by a top surface and a bottom surface in contact with the wafer; forming a conductive body above the top surface of the insulating layer; forming a first coating region extending around and above the conductive body, in contact with the conductive body, and in contact with the top surface of the insulating layer in correspondence of a bottom surface of the first coating region; applying a thermal treatment to the wafer in order to modify a residual stress of the first coating region, forming a gap between the bottom surface of the first coating region and the top surface of the insulating layer; forming, after applying the thermal treatment, a second coating region extending around and above the first coating region, filling said gap and completely sealing the first coating region.
    Type: Application
    Filed: August 7, 2019
    Publication date: February 13, 2020
    Inventors: Michele MOLGG, Cosimo CIMINELLI, Paolo COLPANI, Samuele SCIARRILLO, Ivan VENEGONI, Francesco Maria PIPIA, Simone BOSSI, Carmela CUPETA
  • Publication number: 20190035727
    Abstract: An integrated electronic device includes a semiconductor body and a passivation structure including a frontal dielectric layer bounded by a frontal surface. A conductive region forms a via region, extending into a hole through the frontal dielectric layer. An overlaid redistribution region extends over the frontal surface. A barrier structure includes at least a first barrier region extending into the hole and surrounding the via region. The first barrier region extends over the frontal surface. A first coating layer covers the top and the sides of the redistribution region and a second coating layer covers the first coating layer. A cavity extends between the redistribution region and the frontal surface and is bounded on one side by the first coating layer and on the other by the barrier structure.
    Type: Application
    Filed: July 24, 2018
    Publication date: January 31, 2019
    Inventors: Francesco Maria Pipia, Ivan Venegoni, Annamaria Votta, Francesca Milanesi, Samuele Sciarrillo, Paolo Colpani
  • Publication number: 20190035728
    Abstract: An integrated device includes a semiconductor body and a dielectric layer bounded by a surface. A conductive region of a first metal material forms a via region extending into a hole passing through the dielectric layer, and an overlaid redistribution region which extends over the surface. At least one barrier region of a second metal material extends into the hole and surrounds the via region, and the barrier region furthermore extending over the surface. A first coating layer of a third metal material covers the top and the sides of an upper portion of the redistribution region at a distance from the surface. A second coating layer of a fourth metal material extends at a distance from the surface and covers the first coating layer, and covers laterally a lower portion of the redistribution region which is disposed on top of portions of the barrier region extending over the surface.
    Type: Application
    Filed: July 24, 2018
    Publication date: January 31, 2019
    Inventors: Ivan Venegoni, Francesca Milanesi, Francesco Maria Pipia, Samuele Sciarrillo, Paolo Colpani
  • Publication number: 20190035740
    Abstract: A semiconductor device includes a passivation layer, an interconnection metallization 37 having a peripheral portion over the passivation layer, and an outer surface coating 37 on the interconnection metallization. A diffusion barrier layer comprises an inner planar portion directly on the surface of the passivation layer and a peripheral portion extending along a plane at a vertical height higher than the surface of the passivation layer, so that the peripheral portion forms with the inner portion a step in the barrier layer. The outer surface coating, has a vertical wall with a foot adjacent to the peripheral portion and positioned at the vertical height over the surface of the passivation layer to form a hollow recess area between the surface of the passivation layer and both of the peripheral portion and the foot of the outer surface coating.
    Type: Application
    Filed: July 27, 2018
    Publication date: January 31, 2019
    Inventors: Samuele SCIARRILLO, Paolo COLPANI, Ivan VENEGONI
  • Publication number: 20190035741
    Abstract: A semiconductor device includes a passivation layer over a dielectric layer, a via through the passivation layer and the dielectric layer, an interconnection metallization arranged over said at least one via; said passivation layer underlying peripheral portions of said interconnection metallization, and an outer surface coating that coats said interconnection metallization. The coating preferably includes at least one of a nickel or nickel alloy layer and a noble metal layer. The passivation layer is separated from the peripheral portion of the interconnection metallization by a diffusion barrier layer, preferably a titanium or a titanium alloy barrier. The device includes a dielectric layer arranged between the passivation layer and the diffusion barrier layer; and a hollow recess area between the passivation layer and the end portion of the barrier layer and between the passivation layer and the foot of the outer surface coating.
    Type: Application
    Filed: July 27, 2018
    Publication date: January 31, 2019
    Inventors: Samuele SCIARRILLO, Ivan VENEGONI, Paolo COLPANI, Francesca MILANESI