Patents by Inventor Jonathan S. Hacker

Jonathan S. Hacker 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).

  • Publication number: 20240222145
    Abstract: A semiconductor device includes a substrate including traces, wherein the traces protrude above a top surface of the substrate; a prefill material over the substrate and between the traces; a die attached over the substrate; and a wafer-level underfill between the prefill material and the die.
    Type: Application
    Filed: March 12, 2024
    Publication date: July 4, 2024
    Inventors: Shijian Luo, Jonathan S. Hacker
  • Publication number: 20240178175
    Abstract: A semiconductor die assembly in accordance with an embodiment of the present technology includes first and second semiconductor dies spaced apart from one another. The first semiconductor die has a major surface with non-overlapping first and second regions. The semiconductor die assembly further includes an array of first pillars extending heightwise from the first region of the major surface of the first semiconductor die toward the second semiconductor die. Similarly, the semiconductor die assembly includes an array of second pillars extending heightwise from the second region of the major surface of the first semiconductor die toward the second semiconductor die. The first and second pillars have different lateral densities and different average widths. The latter difference at least partially offsets an effect of the former difference on relative metal deposition rates of an electrochemical plating process used to form the first and second pillars.
    Type: Application
    Filed: February 7, 2024
    Publication date: May 30, 2024
    Inventor: Jonathan S. Hacker
  • Patent number: 11955346
    Abstract: A semiconductor device includes a substrate including traces, wherein the traces protrude above a top surface of the substrate; a prefill material over the substrate and between the traces; a die attached over the substrate; and a wafer-level underfill between the prefill material and the die.
    Type: Grant
    Filed: April 12, 2021
    Date of Patent: April 9, 2024
    Assignee: Micron Technology, Inc.
    Inventors: Shijian Luo, Jonathan S. Hacker
  • Patent number: 11923329
    Abstract: A semiconductor die assembly in accordance with an embodiment of the present technology includes first and second semiconductor dies spaced apart from one another. The first semiconductor die has a major surface with non-overlapping first and second regions. The semiconductor die assembly further includes an array of first pillars extending heightwise from the first region of the major surface of the first semiconductor die toward the second semiconductor die. Similarly, the semiconductor die assembly includes an array of second pillars extending heightwise from the second region of the major surface of the first semiconductor die toward the second semiconductor die. The first and second pillars have different lateral densities and different average widths. The latter difference at least partially offsets an effect of the former difference on relative metal deposition rates of an electrochemical plating process used to form the first and second pillars.
    Type: Grant
    Filed: December 12, 2022
    Date of Patent: March 5, 2024
    Inventor: Jonathan S. Hacker
  • Publication number: 20230104042
    Abstract: A semiconductor die assembly in accordance with an embodiment of the present technology includes first and second semiconductor dies spaced apart from one another. The first semiconductor die has a major surface with non-overlapping first and second regions. The semiconductor die assembly further includes an array of first pillars extending heightwise from the first region of the major surface of the first semiconductor die toward the second semiconductor die. Similarly, the semiconductor die assembly includes an array of second pillars extending heightwise from the second region of the major surface of the first semiconductor die toward the second semiconductor die. The first and second pillars have different lateral densities and different average widths. The latter difference at least partially offsets an effect of the former difference on relative metal deposition rates of an electrochemical plating process used to form the first and second pillars.
    Type: Application
    Filed: December 12, 2022
    Publication date: April 6, 2023
    Inventor: Jonathan S. Hacker
  • Patent number: 11565371
    Abstract: A dressing board for sharpening and/or shaping blades for manufacture of semiconductor devices can include a working surface configured to sharpen and/or shape a cutting surface of a dicing or edging blade for manufacture of a semiconductor device. The working surface can be configured to contact the cutting surface of the blade when sharpening or shaping the cutting surface. The dressing board can include a support substrate configured to support the working surface with respect to a floor of an enclosure in which the dressing board is positioned. In some embodiments, the working surface includes a first portion that is not parallel to the floor.
    Type: Grant
    Filed: December 31, 2018
    Date of Patent: January 31, 2023
    Assignee: Micron Technology, Inc.
    Inventor: Jonathan S. Hacker
  • Patent number: 11527505
    Abstract: A semiconductor die assembly in accordance with an embodiment of the present technology includes first and second semiconductor dies spaced apart from one another. The first semiconductor die has a major surface with non-overlapping first and second regions. The semiconductor die assembly further includes an array of first pillars extending heightwise from the first region of the major surface of the first semiconductor die toward the second semiconductor die. Similarly, the semiconductor die assembly includes an array of second pillars extending heightwise from the second region of the major surface of the first semiconductor die toward the second semiconductor die. The first and second pillars have different lateral densities and different average widths. The latter difference at least partially offsets an effect of the former difference on relative metal deposition rates of an electrochemical plating process used to form the first and second pillars.
    Type: Grant
    Filed: November 23, 2020
    Date of Patent: December 13, 2022
    Assignee: Micron Technology, Inc.
    Inventor: Jonathan S. Hacker
  • Patent number: 11402426
    Abstract: A testing probe apparatus for testing die. The testing probe may include a probe interface and a carrier for supporting at least one die comprising 3D interconnect (3DI) structures. The probe interface may be positionable on a first side of the at least one die and include a voltage source and at least one first inductor operably coupled to the voltage source. A voltage sensor and at least one second inductor coupled to the voltage sensor may be disposed on a second opposing side of the at least one die. The voltage source of the probe interface may be configured to inductively cause a voltage within the 3DI structures of the at least one die via the at least one first inductor. The voltage sensor may be configured to sense a voltage within the at least one 3DI structure via the at least one second inductor. Related systems and methods are also disclosed.
    Type: Grant
    Filed: October 28, 2020
    Date of Patent: August 2, 2022
    Assignee: Micron Technology, Inc.
    Inventors: Tony M. Lindenberg, Kurt J. Bossart, Jonathan S. Hacker, Chandra S. Tiwari
  • Patent number: 11302653
    Abstract: A semiconductor device assembly that includes a substrate having a first side and a second side, the first side having at least one dummy pad and at least one electrical pad. The semiconductor device assembly includes a first semiconductor device having a first side and a second side and at least one electrical pillar extending from the second side. The electrical pillar is connected to the electrical pad via solder to form an electrical interconnect. The semiconductor device assembly includes at least one dummy pillar extending from the second side of the first semiconductor device and a liquid positioned between an end of the dummy pillar and the dummy pad. The surface tension of the liquid pulls the dummy pillar towards the dummy pad. The surface tension may reduce or minimize a warpage of the semiconductor device assembly and/or align the dummy pillar and the dummy pad.
    Type: Grant
    Filed: August 14, 2020
    Date of Patent: April 12, 2022
    Assignee: Micron Technology, Inc.
    Inventors: Bret K. Street, Wei Zhou, Christopher J. Gambee, Jonathan S. Hacker, Shijian Luo
  • Publication number: 20210257226
    Abstract: A semiconductor device includes a substrate including traces, wherein the traces protrude above a top surface of the substrate; a prefill material over the substrate and between the traces; a die attached over the substrate; and a wafer-level underfill between the prefill material and the die.
    Type: Application
    Filed: April 12, 2021
    Publication date: August 19, 2021
    Inventors: Shijian Luo, Jonathan S. Hacker
  • Patent number: 11094684
    Abstract: A semiconductor device assembly that includes a first side of a semiconductor device supported on a substrate to permit the processing of a second side of the semiconductor device. A filler material deposited on the semiconductor device supports the semiconductor device on the substrate. The filler material does not adhere to the semiconductor device or the substrate. Alternatively, the filler material may be deposited on the substrate. Instead of a filler material, the substrate may include a topography configured to support the semiconductor device. Adhesive applied between an outer edge of the first side of the semiconductor and the substrate bonds the outer edge of the semiconductor device to the substrate to form a semiconductor device assembly. A second side of the semiconductor device may then be processed and the outer edge of the semiconductor device may be cut off to release the semiconductor device from the assembly.
    Type: Grant
    Filed: July 17, 2019
    Date of Patent: August 17, 2021
    Assignee: Micron Technology, Inc.
    Inventors: Chandra S. Tiwari, Tony M. Lindenberg, Jonathan S. Hacker, Christopher J. Gambee, Kurt J. Bossart
  • Patent number: 11004697
    Abstract: A semiconductor device includes a substrate including traces, wherein the traces protrude above a top surface of the substrate; a prefill material over the substrate and between the traces, wherein the prefill material directly contacts peripheral surfaces of the traces; a die attached over the substrate; and a wafer-level underfill between the prefill material and the die.
    Type: Grant
    Filed: June 10, 2019
    Date of Patent: May 11, 2021
    Assignee: Micron Technology, Inc.
    Inventors: Shijian Luo, Jonathan S. Hacker
  • Publication number: 20210074663
    Abstract: A semiconductor die assembly in accordance with an embodiment of the present technology includes first and second semiconductor dies spaced apart from one another. The first semiconductor die has a major surface with non-overlapping first and second regions. The semiconductor die assembly further includes an array of first pillars extending heightwise from the first region of the major surface of the first semiconductor die toward the second semiconductor die. Similarly, the semiconductor die assembly includes an array of second pillars extending heightwise from the second region of the major surface of the first semiconductor die toward the second semiconductor die. The first and second pillars have different lateral densities and different average widths. The latter difference at least partially offsets an effect of the former difference on relative metal deposition rates of an electrochemical plating process used to form the first and second pillars.
    Type: Application
    Filed: November 23, 2020
    Publication date: March 11, 2021
    Inventor: Jonathan S. Hacker
  • Publication number: 20210041495
    Abstract: A testing probe apparatus for testing die. The testing probe may include a probe interface and a carrier for supporting at least one die comprising 3D interconnect (3DI) structures. The probe interface may be positionable on a first side of the at least one die and include a voltage source and at least one first inductor operably coupled to the voltage source. A voltage sensor and at least one second inductor coupled to the voltage sensor may be disposed on a second opposing side of the at least one die. The voltage source of the probe interface may be configured to inductively cause a voltage within the 3DI structures of the at least one die via the at least one first inductor. The voltage sensor may be configured to sense a voltage within the at least one 3DI structure via the at least one second inductor. Related systems and methods are also disclosed.
    Type: Application
    Filed: October 28, 2020
    Publication date: February 11, 2021
    Inventors: Tony M. Lindenberg, Kurt J. Bossart, Jonathan S. Hacker, Chandra S. Tiwari
  • Patent number: 10896886
    Abstract: Semiconductor devices having discretely located passivation material are disclosed herein. In one embodiment, a semiconductor device assembly can include a bond pad having a bonding surface with a process artifact. A passivation material can be positioned to at least partially fill a portion of the process artifact. A conductive structure can be positioned to extend across the bonding surface of the bond pad.
    Type: Grant
    Filed: February 14, 2019
    Date of Patent: January 19, 2021
    Assignee: Micron Technology, Inc.
    Inventors: Mayukhee Das, Jonathan S. Hacker, Christopher J. Gambee, Chandra S. Tiwari
  • Patent number: 10852344
    Abstract: A testing probe apparatus for testing die. The testing probe may include a probe interface and a carrier for supporting at least one die comprising 3DI structures. The probe interface may be positionable on a first side of the at least one die and include a voltage source and at least one first inductor operably coupled to the voltage source. A voltage sensor and at least one second inductor coupled to the voltage sensor may be disposed on a second opposing side of the at least one die. The voltage source of the probe interface may be configured to inductively cause a voltage within the 3DI structures of the at least one die via the at least one first inductor. The voltage sensor may be configured to sense a voltage within the at least one 3DI structure via the at least one second inductor. Related systems and methods are also disclosed.
    Type: Grant
    Filed: December 12, 2017
    Date of Patent: December 1, 2020
    Assignee: Micron Technology, Inc.
    Inventors: Tony M. Lindenberg, Kurt J. Bossart, Jonathan S. Hacker, Chandra S. Tiwari
  • Publication number: 20200373252
    Abstract: A semiconductor device assembly that includes a substrate having a first side and a second side, the first side having at least one dummy pad and at least one electrical pad. The semiconductor device assembly includes a first semiconductor device having a first side and a second side and at least one electrical pillar extending from the second side. The electrical pillar is connected to the electrical pad via solder to form an electrical interconnect. The semiconductor device assembly includes at least one dummy pillar extending from the second side of the first semiconductor device and a liquid positioned between an end of the dummy pillar and the dummy pad. The surface tension of the liquid pulls the dummy pillar towards the dummy pad. The surface tension may reduce or minimize a warpage of the semiconductor device assembly and/or align the dummy pillar and the dummy pad.
    Type: Application
    Filed: August 14, 2020
    Publication date: November 26, 2020
    Inventors: Bret K. Street, Wei Zhou, Christopher J. Gambee, Jonathan S. Hacker, Shijian Luo
  • Patent number: 10847486
    Abstract: A semiconductor die assembly in accordance with an embodiment of the present technology includes first and second semiconductor dies spaced apart from one another. The first semiconductor die has a major surface with non-overlapping first and second regions. The semiconductor die assembly further includes an array of first pillars extending heightwise from the first region of the major surface of the first semiconductor die toward the second semiconductor die. Similarly, the semiconductor die assembly includes an array of second pillars extending heightwise from the second region of the major surface of the first semiconductor die toward the second semiconductor die. The first and second pillars have different lateral densities and different average widths. The latter difference at least partially offsets an effect of the former difference on relative metal deposition rates of an electrochemical plating process used to form the first and second pillars.
    Type: Grant
    Filed: August 23, 2019
    Date of Patent: November 24, 2020
    Assignee: Micron Technology, Inc.
    Inventor: Jonathan S. Hacker
  • Patent number: 10763131
    Abstract: A semiconductor device includes a substrate including traces, wherein the traces protrude above a top surface of the substrate; a prefill material over the substrate and between the traces, wherein the prefill material directly contacts peripheral surfaces of the traces; a die attached over the substrate; and a wafer-level underfill between the prefill material and the die.
    Type: Grant
    Filed: November 17, 2017
    Date of Patent: September 1, 2020
    Assignee: Micron Technology, Inc.
    Inventors: Shijian Luo, Jonathan S. Hacker
  • Patent number: 10748857
    Abstract: A semiconductor device assembly that includes a substrate having a first side and a second side, the first side having at least one dummy pad and at least one electrical pad. The semiconductor device assembly includes a first semiconductor device having a first side and a second side and at least one electrical pillar extending from the second side. The electrical pillar is connected to the electrical pad via solder to form an electrical interconnect. The semiconductor device assembly includes at least one dummy pillar extending from the second side of the first semiconductor device and a liquid positioned between an end of the dummy pillar and the dummy pad. The surface tension of the liquid pulls the dummy pillar towards the dummy pad. The surface tension may reduce or minimize a warpage of the semiconductor device assembly and/or align the dummy pillar and the dummy pad.
    Type: Grant
    Filed: September 11, 2018
    Date of Patent: August 18, 2020
    Assignee: MICRON TECHNOLOGY, INC.
    Inventors: Bret K. Street, Wei Zhou, Christopher J. Gambee, Jonathan S. Hacker, Shijian Luo