Patents by Inventor Alan G. Wood

Alan G. Wood 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: 7960829
    Abstract: A support structure for use with a semiconductor substrate in thinning, or backgrinding, thereof, as well as during post-thinning processing of the semiconductor substrate includes a portion that extends substantially along and around an outer periphery of the semiconductor substrate to impart the thinned semiconductor substrate with rigidity. The support structure may be configured as a ring or as a member that substantially covers an active surface of the semiconductor substrate and forms a protective structure over each semiconductor device carried by the active surface.
    Type: Grant
    Filed: August 31, 2005
    Date of Patent: June 14, 2011
    Assignee: Micron Technology, Inc.
    Inventors: Alan G. Wood, Warren M. Farnworth, David R. Hembree, Sidney B. Rigg, William M. Hiatt, Peter Benson, Kyle K. Kirby, Salman Akram
  • Publication number: 20110136336
    Abstract: Methods of forming a conductive via may include forming a blind via hole partially through a substrate, forming an aluminum film on surfaces of the substrate, removing a first portion of the aluminum film from some surfaces, selectively depositing conductive material onto a second portion of the aluminum film, and exposing the blind via hole through a back side of the substrate. Methods of fabricating a conductive via may include forming at least one via hole through at least one unplated bond pad, forming a first adhesive over at least one surface of the at least one via hole, forming a dielectric over the first adhesive, forming a base layer over the dielectric and the at least one unplated bond pad, and plating nickel onto the base layer.
    Type: Application
    Filed: February 17, 2011
    Publication date: June 9, 2011
    Applicant: MICRON TECHNOLOGY, INC.
    Inventors: Salman Akram, William Mark Hiatt, Steven Oliver, Alan G. Wood, Sidney B. Rigg, James M. Wark, Kyle K. Kirby
  • Patent number: 7956443
    Abstract: A through-wafer interconnect for imager, memory and other integrated circuit applications is disclosed, thereby eliminating the need for wire bonding, making devices incorporating such interconnects stackable and enabling wafer level packaging for imager devices. Further, a smaller and more reliable die package is achieved and circuit parasitics (e.g., L and R) are reduced due to the reduced signal path lengths.
    Type: Grant
    Filed: March 17, 2010
    Date of Patent: June 7, 2011
    Assignee: Micron Technology, Inc.
    Inventors: Salman Akram, Charles M. Watkins, Mark Hiatt, David R. Hembree, James M. Wark, Warren M. Farnworth, Mark E. Tuttle, Sidney B. Rigg, Steven D. Oliver, Kyle K. Kirby, Alan G. Wood, Lu Velicky
  • Patent number: 7951702
    Abstract: A backside method for fabricating a semiconductor component with a conductive interconnect includes the step of providing a semiconductor substrate having a circuit side, a backside, and a substrate contact on the circuit side. The method also includes the steps of forming a substrate opening from the backside to the substrate contact, and then bonding the conductive interconnect to an inner surface of the substrate contact.
    Type: Grant
    Filed: February 10, 2010
    Date of Patent: May 31, 2011
    Assignee: Micron Technology, Inc.
    Inventors: Alan G. Wood, William M. Hiatt, David R. Hembree
  • Patent number: 7935991
    Abstract: A semiconductor component includes a semiconductor substrate having at least one conductive interconnect on the backside thereof bonded to an inner surface of a substrate contact. A stacked semiconductor component includes multiple semiconductor components in a stacked array having bonded connections between conductive interconnects on adjacent components. An image sensor semiconductor component includes a semiconductor substrate having light detecting elements on the circuit side, and conductive interconnects on the backside.
    Type: Grant
    Filed: May 3, 2008
    Date of Patent: May 3, 2011
    Assignee: Micron Technology, Inc.
    Inventors: Alan G. Wood, William M. Hiatt, David R. Hembree
  • Publication number: 20110095429
    Abstract: Methods for forming conductive vias include foiling one or more via holes in a substrate. The via holes may be formed with a single mask, with protective layers, bond pads, or other features of the substrate acting as hard masks in the event that a photomask is removed during etching processes. The via holes may be configured to facilitate adhesion of a dielectric coating that includes a low-K dielectric material to the surfaces thereof A barrier layer may be fowled over surfaces of each via hole. A base layer, which may comprise a seed material, may be formed to facilitate the subsequent, selective deposition of conductive material over the surfaces of the via hole. The resulting semiconductor devices, intermediate structures, and assemblies and electronic devices that include the semiconductor devices that result from these methods are also disclosed.
    Type: Application
    Filed: January 6, 2011
    Publication date: April 28, 2011
    Applicant: MICRON TECHNOLOGY, INC.
    Inventors: Salman Akram, William Mark Hiatt, Steve Oliver, Alan G. Wood, Sidney B. Rigg, James M. Wark, Kyle K. Kirby
  • Publication number: 20110089539
    Abstract: Methods for forming electrically conductive through-wafer interconnects in microelectronic devices and microelectronic devices are disclosed herein. In one embodiment, a microelectronic device can include a monolithic microelectronic substrate with an integrated circuit has a front side with integrated circuit interconnects thereon. A bond-pad is carried by the substrate and electrically coupled to the integrated circuit. An electrically conductive through-wafer interconnect extends through the substrate and is in contact with the bond-pad. The interconnect can include a passage extending completely through the substrate and the bond-pad, a dielectric liner deposited into the passage and in contact with the substrate, first and second conductive layers deposited onto at least a portion of the dielectric liner, and a conductive fill material deposited into the passage over at least a portion of the second conductive layer and electrically coupled to the bond-pad.
    Type: Application
    Filed: December 23, 2010
    Publication date: April 21, 2011
    Applicant: ROUND ROCK RESEARCH, LLC
    Inventors: Salman Akram, Charles M. Watkins, Kyle K. Kirby, Alan G. Wood, William M. Hiatt
  • Publication number: 20110074043
    Abstract: Methods for forming through vias in a semiconductor substrate and resulting structures are disclosed. In one embodiment, a through via may be formed by forming a partial via from an active surface through a conductive element thereon and a portion of the substrate underlying the conductive element. The through via may then be completed by laser ablation or drilling from a back surface. In another embodiment, a partial via may be formed by laser ablation or drilling from the back surface of a substrate to a predetermined distance therein. The through via may be completed from the active surface by forming a partial via extending through the conductive element and the underlying substrate to intersect the laser-drilled partial via. In another embodiment, a partial via may first be formed by laser ablation or drilling from the back surface of the substrate followed by dry etching to complete the through via.
    Type: Application
    Filed: November 29, 2010
    Publication date: March 31, 2011
    Applicant: Micron Technology, Inc.
    Inventors: Charles M. Watkins, Kyle K. Kirby, Alan G. Wood, Salman Akram, Warren M. Farnworth
  • Patent number: 7892972
    Abstract: Methods for forming conductive vias include forming one or more via holes in a substrate. The via holes may be formed with a single mask, with protective layers, bond pads, or other features of the substrate acting as hard masks in the event that a photomask is removed during etching processes. The via holes may be configured to facilitate adhesion of a dielectric coating that includes a low-K dielectric material to the surfaces thereof. A barrier layer may be formed over surfaces of each via hole. A base layer, which may comprise a seed material, may be formed to facilitate the subsequent, selective deposition of conductive material over the surfaces of the via hole. The resulting semiconductor devices, intermediate structures, and assemblies and electronic devices that include the semiconductor devices that result from these methods are also disclosed.
    Type: Grant
    Filed: February 3, 2006
    Date of Patent: February 22, 2011
    Assignee: Micron Technology, Inc.
    Inventors: Salman Akram, William Mark Hiatt, Steve Oliver, Alan G. Wood, Sidney B. Rigg, James M. Wark, Kyle K. Kirby
  • Patent number: 7883908
    Abstract: A method for fabricating a semiconductor component with an encapsulated through wire interconnect includes the steps of providing a substrate having a first side, a second side and a substrate contact; forming a via in the substrate contact and the substrate to the second side; placing a wire in the via; forming a first contact on the wire proximate to the first side and a second contact on the wire proximate to the second side; and forming a polymer layer on the first side leaving the first contact exposed. The polymer layer can be formed using a film assisted molding process including the steps of: forming a mold film on tip portions of the bonding members, molding the polymer layer, and then removing the mold film to expose the tip portions of the bonding members. The through wire interconnect provides a multi level interconnect having contacts on opposing sides of the semiconductor substrate.
    Type: Grant
    Filed: October 19, 2009
    Date of Patent: February 8, 2011
    Assignee: Micron Technology, Inc.
    Inventors: David R. Hembree, Alan G. Wood
  • Publication number: 20110024745
    Abstract: A method for fabricating a semiconductor component with an encapsulated through wire interconnect includes the steps of providing a substrate having a first side, a second side and a substrate contact; forming a via in the substrate contact and the substrate to the second side; placing a wire in the via; forming a first contact on the wire proximate to the first side and a second contact on the wire proximate to the second side; and forming a polymer layer on the first side leaving the first contact exposed. The polymer layer can be formed using a film assisted molding process including the steps of: forming a mold film on tip portions of the bonding members, molding the polymer layer, and then removing the mold film to expose the tip portions of the bonding members. The through wire interconnect provides a multi level interconnect having contacts on opposing sides of the semiconductor substrate.
    Type: Application
    Filed: October 14, 2010
    Publication date: February 3, 2011
    Inventors: David R. Hembree, Alan G. Wood
  • Patent number: 7880307
    Abstract: Semiconductor devices including through-wafer interconnects are disclosed. According to an embodiment of the present invention, a semiconductor device may comprise a substrate having a first surface and a second, opposing surface, and a through-wafer interconnect extending into the first surface of the substrate. The through-wafer interconnect may include an electrically conductive material extending from the first surface of the substrate to the second, opposing surface of the substrate. The through-wafer interconnect may also include a first dielectric material disposed between the electrically conductive material and the substrate and extending from the second, opposing surface of the substrate to the first portion of the conductive material.
    Type: Grant
    Filed: August 6, 2008
    Date of Patent: February 1, 2011
    Assignee: Micron Technology, Inc.
    Inventors: Warren M. Farnworth, Alan G. Wood
  • Publication number: 20100327462
    Abstract: Methods for wafer-level packaging of microfeature devices and microfeature devices formed using such methods are disclosed herein. A method for packaging microfeature devices in accordance with an embodiment of the invention can include releasably attaching a plurality of first known good microelectronic dies to a carrier substrate in a desired arrangement. In several embodiments, for example, the first dies can be releasably attached to an attachment feature on the carrier substrate. The method can also include attaching one or more second known good microelectronic dies to the individual first dies in a stacked configuration to form a plurality of stacked devices. The method further includes at least partially encapsulating the stacked devices and separating the stacked devices from each other.
    Type: Application
    Filed: September 2, 2010
    Publication date: December 30, 2010
    Applicant: MICRON TECHNOLOGY, INC.
    Inventors: Warren M. Farnworth, Alan G. Wood
  • Patent number: 7858429
    Abstract: Microelectronic imagers, methods for packaging microelectronic imagers, and methods for forming electrically conductive through-wafer interconnects in microelectronic imagers are disclosed herein. In one embodiment, a microelectronic imaging die can include a microelectronic substrate, an integrated circuit, and an image sensor electrically coupled to the integrated circuit. A bond-pad is carried by the substrate and electrically coupled to the integrated circuit. An electrically conductive through-wafer interconnect extends through the substrate and is in contact with the bond-pad. The interconnect can include a passage extending completely through the substrate and the bond-pad, a dielectric liner deposited into the passage and in contact with the substrate, first and second conductive layers deposited onto at least a portion of the dielectric liner, and a conductive fill material deposited into the passage over at least a portion of the second conductive layer and electrically coupled to the bond-pad.
    Type: Grant
    Filed: September 27, 2007
    Date of Patent: December 28, 2010
    Assignee: Round Rock Research, LLC
    Inventors: Salman Akram, Charles M. Watkins, Kyle K. Kirby, Alan G. Wood, William M. Hiatt
  • Patent number: 7855140
    Abstract: Methods for forming through vias in a semiconductor substrate and resulting structures are disclosed. In one embodiment, a through via may be formed by forming a partial via from an active surface through a conductive element thereon and a portion of the substrate underlying the conductive element. The through via may then be completed by laser ablation or drilling from a back surface. In another embodiment, a partial via may be formed by laser ablation or drilling from the back surface of a substrate to a predetermined distance therein. The through via may be completed from the active surface by forming a partial via extending through the conductive element and the underlying substrate to intersect the laser-drilled partial via. In another embodiment, a partial via may first be formed by laser ablation or drilling from the back surface of the substrate followed by dry etching to complete the through via.
    Type: Grant
    Filed: July 20, 2007
    Date of Patent: December 21, 2010
    Assignee: Micron Technology, Inc.
    Inventors: Charles M. Watkins, Kyle K. Kirby, Alan G. Wood, Salman Akram, Warren M. Farnworth
  • Patent number: 7833832
    Abstract: A method for fabricating a semiconductor component with through interconnects can include the steps of providing a semiconductor substrate with substrate contacts, and forming openings from a backside of the substrate aligned with the substrate contacts. The method can also include the steps of providing an interposer substrate (or alternately a second semiconductor substrate), forming projections on the interposer substrate (or on the second semiconductor substrate), and forming conductive vias in the projections. The method can also include the steps of placing the projections in physical contact with the openings, and placing the conductive vias in electrical contact with the substrate contacts. The method can also include the steps of bonding the conductive vias to the substrate contacts, and forming terminal contacts on the interposer substrate (or alternately on one of the semiconductor substrates) in electrical communication with the conductive vias.
    Type: Grant
    Filed: March 27, 2009
    Date of Patent: November 16, 2010
    Assignee: Micron Technology, Inc.
    Inventors: Alan G. Wood, Warren M. Farnworth, David R. Hembree
  • Publication number: 20100264423
    Abstract: A method for fabricating semiconductor components includes the steps of providing a semiconductor substrate having a circuit side, a back side and integrated circuits and circuitry on the circuit side; thinning the substrate from the back side to a selected thickness; laser processing the back side of the thinned substrate to form at least one lasered feature on the back side; and dicing the substrate into a plurality of components having the lasered feature. The lasered feature can cover the entire back side or only selected areas of the back side, and can be configured to change electrical properties, mechanical properties or gettering properties of the substrate. A semiconductor component includes a thinned semiconductor substrate having a back side and a circuit side containing integrated circuits and associated circuitry. The semiconductor component also includes at least one lasered feature on the back side configured to provide selected electrical or physical characteristics for the substrate.
    Type: Application
    Filed: April 16, 2009
    Publication date: October 21, 2010
    Inventors: Alan G. Wood, Tim Corbett
  • Publication number: 20100264521
    Abstract: A semiconductor component includes a semiconductor substrate having a substrate contact, and a through wire interconnect (TWI) bonded to the substrate contact. The through wire interconnect (TWI) includes a via through the substrate contact and the substrate, a wire in the via bonded to the substrate contact, and a contact on the wire. A stacked semiconductor component includes the semiconductor substrate, and a second semiconductor substrate stacked on the substrate and bonded to a through wire interconnect on the substrate. A method for fabricating a semiconductor component with a through wire interconnect includes the steps of providing a semiconductor substrate with a substrate contact, forming a via through the substrate contact and part way through the substrate, placing the wire in the via, bonding the wire to the substrate contact, and then thinning the substrate from a second side to expose a contact on the wire.
    Type: Application
    Filed: June 28, 2010
    Publication date: October 21, 2010
    Inventors: Alan G. Wood, David R. Hembree
  • Publication number: 20100252915
    Abstract: Methods of forming microelectronic device wafers include fabricating a plurality of semiconductor dies at an active side of a semiconductor wafer, depositing a mask on the semiconductor wafer, removing a central portion of the mask and the semiconductor wafer, and etching. The semiconductor wafer has an outer perimeter edge and a backside that is spaced from the active side by a first thickness. The mask is deposited on the backside of the semiconductor wafer and has a face that is spaced from the backside by a mask thickness. The thinned portion has a thinned surface that is spaced from the active side by a second thickness that is less than the first thickness, and the thinned surface is etched.
    Type: Application
    Filed: April 1, 2009
    Publication date: October 7, 2010
    Applicant: MICRON TECHNOLOGY, INC.
    Inventors: Alan G. Wood, Ed A. Schrock, Ford B. Grigg
  • Patent number: 7807505
    Abstract: Methods for wafer-level packaging of microfeature devices and microfeature devices formed using such methods are disclosed herein. A method for packaging microfeature devices in accordance with an embodiment of the invention can include releasably attaching a plurality of first known good microelectronic dies to a carrier substrate in a desired arrangement. In several embodiments, for example, the first dies can be releasably attached to an attachment feature on the carrier substrate. The method can also include attaching one or more second known good microelectronic dies to the individual first dies in a stacked configuration to form a plurality of stacked devices. The method further includes at least partially encapsulating the stacked devices and separating the stacked devices from each other.
    Type: Grant
    Filed: August 30, 2005
    Date of Patent: October 5, 2010
    Assignee: Micron Technology, Inc.
    Inventors: Warren M. Farnworth, Alan G. Wood