Patents by Inventor David S. Becker

David S. Becker 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: 20260154752
    Abstract: Described is a digital platform for facilitating insurance-related transactions using an integrated application programming interface (API). Insurance may include workers'compensation insurance. The integrated API may include a representational state transfer (REST) API that integrates many different transactions into the platform. Transactions may include transactions between insurance agencies and agents, comparative rating entities, companies having insurance needs, or direct consumers having insurance needs. Transactions may include providing of quotes (quoting), finalizing or binding of quotes, managing policies, or pulling of support data. Actions associated with transactions may include creating a quote, getting quote status, getting policy status, or getting class appetite.
    Type: Application
    Filed: August 11, 2025
    Publication date: June 4, 2026
    Inventors: David S. Becker, Daniel Lorenzo Cerna, Graig Mickelson, David Trudeau, Christopher Bradley ZiCornell
  • Patent number: 12412220
    Abstract: Described is a digital platform for facilitating insurance-related transactions using an integrated application programming interface (API). Insurance may include workers' compensation insurance. The integrated API may include a representational state transfer (REST) API that integrates many different transactions into the platform. Transactions may include transactions between insurance agencies and agents, comparative rating entities, companies having insurance needs, or direct consumers having insurance needs. Transactions may include providing of quotes (quoting), finalizing or binding of quotes, managing policies, or pulling of support data. Actions associated with transactions may include creating a quote, getting quote status, getting policy status, or getting class appetite.
    Type: Grant
    Filed: November 20, 2024
    Date of Patent: September 9, 2025
    Assignee: EIG SERVICES, INC.
    Inventors: David S. Becker, Daniel Lorenzo Cerna, Graig Mickelson, David Trudeau, Christopher Bradley ZiCornell
  • Publication number: 20250078170
    Abstract: Described is a digital platform for facilitating insurance-related transactions using an integrated application programming interface (API). Insurance may include workers' compensation insurance. The integrated API may include a representational state transfer (REST) API that integrates many different transactions into the platform. Transactions may include transactions between insurance agencies and agents, comparative rating entities, companies having insurance needs, or direct consumers having insurance needs. Transactions may include providing of quotes (quoting), finalizing or binding of quotes, managing policies, or pulling of support data. Actions associated with transactions may include creating a quote, getting quote status, getting policy status, or getting class appetite.
    Type: Application
    Filed: November 20, 2024
    Publication date: March 6, 2025
    Inventors: David S. Becker, Daniel Lorenzo Cerna, Graig Mickelson, David Trudeau, Christopher Bradley ZiCornell
  • Patent number: 8726848
    Abstract: A cart-handler for mobile carts within narrow confines is provided. The cart-handler is constructed from an elongate frame having at least one upright support rail and opposite ends supported on wheels. A pair of stabilizers is connected to the frame with each stabilizer being movable into a retracted position on the frame and into a laterally-extended position in which the stabilizer directly engages an underlying floor surface to aid in supporting the cart-handler on the floor. When the stabilizers are placed in the laterally-extended position, each stabilizer extends outward from a common side of the elongate frame. A cart-lifter is mounted on the support rail of the frame and is movable vertically along the support rail so that the cart-lifter can engage, elevate, and support a separate mobile cart above the underlying floor surface. The cart-handler can be interconnected to a pair of elevated mobile work platforms.
    Type: Grant
    Filed: April 26, 2011
    Date of Patent: May 20, 2014
    Inventors: J. Michael Melhorn, David S. Becker
  • Publication number: 20120272925
    Abstract: A cart-handler for mobile carts within narrow confines is provided. The cart-handler is constructed from an elongate frame having at least one upright support rail and opposite ends supported on wheels. A pair of stabilizers is connected to the frame with each stabilizer being movable into a retracted position on the frame and into a laterally-extended position in which the stabilizer directly engages an underlying floor surface to aid in supporting the cart-handler on the floor. When the stabilizers are placed in the laterally-extended position, each stabilizer extends outward from a common side of the elongate frame. A cart-lifter is mounted on the support rail of the frame and is movable vertically along the support rail so that the cart-lifter can engage, elevate, and support a separate mobile cart above the underlying floor surface. The cart-handler can be interconnected to a pair of elevated mobile work platforms.
    Type: Application
    Filed: April 26, 2011
    Publication date: November 1, 2012
    Inventors: J. Michael Melhorn, David S. Becker
  • Patent number: 7608196
    Abstract: A plasma etch process for etching a dielectric material employing two primary etchants at low flows and pressures, and a relatively low temperature environment within the etch chamber. The two primary etchant gases are CHF3 and CH2F2, delivered at flow rates on the order of between about 10 sccm and 40 sccm for CHF3 and between about 10 sccm and 40 sccm for CH2F2. Small quantities, on the order of 10 sccm or less, of other gases such as C2HF5 and CF4 may be added.
    Type: Grant
    Filed: December 14, 2006
    Date of Patent: October 27, 2009
    Assignee: Micron Technology, Inc.
    Inventors: Kevin G. Donohoe, David S. Becker
  • Patent number: 7183220
    Abstract: A plasma etching method includes forming a polymer comprising carbon and a halogen over at least some internal surfaces of a plasma etch chamber. After forming the polymer, plasma etching is conducted using a gas which is effective to etch polymer from chamber internal surfaces. In one implementation, the gas has a hydrogen component effective to form a gaseous hydrogen halide from halogen liberated from the polymer. In one implementation, the gas comprises a carbon component effective to getter the halogen from the etched polymer. In another implementation, a plasma etching method includes positioning a semiconductor wafer on a wafer receiver within a plasma etch chamber. First plasma etching of material on the semiconductor wafer occurs with a gas comprising carbon and a halogen. A polymer comprising carbon and the halogen forms over at least some internal surfaces of the plasma etch chamber during the first plasma etching.
    Type: Grant
    Filed: October 2, 2000
    Date of Patent: February 27, 2007
    Assignee: Micron Technology, Inc.
    Inventors: Guy T. Blalock, David S. Becker, Kevin G. Donohoe
  • Patent number: 7163641
    Abstract: A plasma etch process for etching BPSG employing two primary etchants at low flows and pressures, and a relatively low temperature environment within the etch chamber, which includes a fluorine scavenger in the form of silicon. The two primary etchant gases are CHF3 and CH2F2, delivered at flow rates on the order of between about 10 and 40 sccm for CHF3 and between about 10 and 40 sccm for CH2F2. Small quantities, on the order of 10 sccm or less, of other gases such as C2HF5 and CF4 may be added.
    Type: Grant
    Filed: May 30, 2003
    Date of Patent: January 16, 2007
    Assignee: Micron Technology, Inc.
    Inventors: Kevin G. Donohoe, David S. Becker
  • Patent number: 7074724
    Abstract: A method of anisotropiocally etching a semiconductive substrate uses a hydrofluorocarbon etch gas with an etch selectivity fluorocarbon gas. The fluorocarbon gas is used under conditions that enhance selectivity of the etch to an etch stop layer with respect to a bulk dielectric material such as doped or undoped silicon dioxide. In one method, a silicon dioxide dielectric layer is provided upon an etch stop layer, wherein the etch stop layer comprises silicon dioxide that is doped differently from the silicon dioxide dielectric layer. A gaseous etchant including a hydrofluorocarbon etch gas and a fluorocarbon selectivity compound is provided, and the silicon dioxide dielectric layer is exposed to the gaseous-etchant.
    Type: Grant
    Filed: July 9, 2004
    Date of Patent: July 11, 2006
    Assignee: Micron Technology, Inc.
    Inventors: Kevin G. Donohoe, David S. Becker
  • Patent number: 7049244
    Abstract: A process for controlling the plasma etch of a silicon dioxide layer at a high etch rate and high selectivity with respect to silicon nitride, particularly in a multilayer structure, by (1) maintaining various portions of the etch chamber at elevated temperatures, and/ox (2) using an etch chemistry having a fluorohydrocarbon gas containing at least as many hydrogen atoms as fluorine atoms, preferably CH2F2 or CH3F.
    Type: Grant
    Filed: August 6, 2001
    Date of Patent: May 23, 2006
    Assignee: Micron Technology, Inc.
    Inventors: David S. Becker, Guy T. Blalock, Fred L. Roe
  • Patent number: 6958297
    Abstract: A patterned organic masking layer is formed outwardly of a feature layer to be etched. It has at least one feature pattern having a minimum feature dimension of less than or equal to 0.3 micron. The feature pattern is plasma etched into the feature layer using the masking layer as a mask. The plasma etching comprises at least one etching segment using an etching gas comprising one gas compound comprising carbon, hydrogen and at least one halogen under conditions effective to produce at least that portion of the one feature pattern in the feature layer to have a sidewall taper, if any, of less than or equal to 5° and an organic masking layer top outer surface roughness proximate the feature pattern at a conclusion of the etching segment which is characterizable by an average value less than 100 Angstroms. Other implementations are also contemplated.
    Type: Grant
    Filed: May 23, 2003
    Date of Patent: October 25, 2005
    Assignee: Micron Technology, Inc.
    Inventors: David S. Becker, Bradley J. Howard, Kevin G. Donohoe
  • Patent number: 6890863
    Abstract: The present invention relates to a method of anisotropically etching a semiconductive substrate uses a hydrofluorocarbon etch gas with an etch selectivity fluorocarbon gas that previously was used to enhance oxide etching but not nitride selectivity. The present invention uses the fluorocarbon gas under conditions that enhance selectivity of the etch to nitride with respect to a bulk dielectric material such as doped and undoped silicon dioxide.
    Type: Grant
    Filed: April 27, 2000
    Date of Patent: May 10, 2005
    Assignee: Micron Technology, Inc.
    Inventors: Kevin G. Donohoe, David S. Becker
  • Publication number: 20040248413
    Abstract: A method of anisotropiocally etching a semiconductive substrate uses a hydrofluorocarbon etch gas with an etch selectivity fluorocarbon gas. The fluorocarbon gas is used under conditions that enhance selectivity of the etch to an etch stop layer with respect to a bulk dielectric material such as doped or undoped silicon dioxide. In one method, a silicon dioxide dielectric layer is provided upon an etch stop layer, wherein the etch stop layer comprises silicon dioxide that is doped differently from the silicon dioxide dielectric layer. A gaseous etchant including a hydrofluorocarbon etch gas and a fluorocarbon selectivity compound is provided, and the silicon dioxide dielectric layer is exposed to the gaseous etchant.
    Type: Application
    Filed: July 9, 2004
    Publication date: December 9, 2004
    Applicant: Micron Technology, Inc.
    Inventors: Kevin G. Donohoe, David S. Becker
  • Patent number: 6812154
    Abstract: A patterned organic masking layer is formed outwardly of a feature layer to be etched. It has at least one feature pattern having a minimum feature dimension of less than or equal to 0.3 micron. The feature layer has a thickness which is to be etched to form the one feature pattern in the feature layer. The feature pattern is plasma etched into the feature layer using the masking layer as a mask. The plasma etching comprises at least one etching segment where at least 30% of said thickness of the feature layer is etched using an etching gas comprising one gas compound comprising carbon, hydrogen and at least one halogen present at greater than or equal to 70% concentration by volume as compared to all carbon, hydrogen and halogen containing gas compounds in the etching gas.
    Type: Grant
    Filed: October 17, 2002
    Date of Patent: November 2, 2004
    Assignee: Micron Technology, INC
    Inventors: David S. Becker, Bradley J. Howard, Kevin G. Donohoe
  • Patent number: 6784108
    Abstract: Etch profile control with pulsed gas flow and its applications to etching such as anisotropic etching of high aspect ratio features and etching of self-aligned contact structures in various processes. Pulsing can be applied according to this invention to the flow rate of a gas such as an etchant gas, a gas that leads to the deposition of a protective layer, a gas that modifies the deposition of a protective layer, and a gas that modifies etching.
    Type: Grant
    Filed: August 31, 2000
    Date of Patent: August 31, 2004
    Assignee: Micron Technology, Inc.
    Inventors: Kevin G. Donohoe, David S. Becker
  • Patent number: 6759320
    Abstract: A method of forming a transistor for a semiconductor device from a semiconductor wafer comprises forming a first nitride layer over the front and back of the wafer, and forming a second nitride layer over the front and back of the wafer and over the first nitride layer. A first resist layer is formed over the front of the wafer and at least a portion of the second nitride layer over the front of the wafer is exposed. The first and second nitride layers are removed from the back of the wafer while, simultaneously, at least a portion of the exposed portion of the second nitride layer over the front of the wafer is removed. Next, a second layer of resist is formed leaving at least a portion of the first nitride layer exposed. Finally, the exposed portion of the first nitride layer is etched.
    Type: Grant
    Filed: August 28, 2002
    Date of Patent: July 6, 2004
    Assignee: Micron Technology, Inc.
    Inventor: David S. Becker
  • Publication number: 20030207581
    Abstract: A patterned organic masking layer is formed outwardly of a feature layer to be etched. It has at least one feature pattern having a minimum feature dimension of less than or equal to 0.3 micron. The feature layer has a thickness which is to be etched to form the one feature pattern in the feature layer. The feature pattern is plasma etched into the feature layer using the masking layer as a mask. The plasma etching comprises at least one etching segment where at least 30% of said thickness of the feature layer is etched using an etching gas comprising one gas compound comprising carbon, hydrogen and at least one halogen present at greater than or equal to 70% concentration by volume as compared to all carbon, hydrogen and halogen containing gas compounds in the etching gas.
    Type: Application
    Filed: May 23, 2003
    Publication date: November 6, 2003
    Inventors: David S. Becker, Bradley J. Howard, Kevin G. Donohoe
  • Publication number: 20030192858
    Abstract: A plasma etch process for etching BPSG employing two primary etchants at low flows and pressures, and a relatively low temperature environment within the etch chamber, which includes a fluorine scavenger in the form of silicon. The two primary etchant gases are CHF3 and CH2F2, delivered at flow rates on the order of between about 10 and 40 sccm for CHF3 and between about 10 and 40 sccm for CH2F2. Small quantities, on the order of 10 sccm or less, of other gases such as C2HF5 and CF4 may be added.
    Type: Application
    Filed: May 30, 2003
    Publication date: October 16, 2003
    Inventors: Kevin G. Donohoe, David S. Becker
  • Patent number: 6610212
    Abstract: A plasma etch process for etching BPSG employing two primary etchants at low flows and pressures, and a relatively low temperature environment within the etch chamber, which includes a fluorine scavenger in the form of silicon. The two primary etchant gases are CHF3 and CH2F2, delivered at flow rates on the order of between about 10 and 40 sccm for CHF3 and between about 10 and 40 sccm for CH2F2. Small quantities, on the order of 10 sccm or less, of other gases such as C2HF5 and CF4 may be added.
    Type: Grant
    Filed: January 29, 2002
    Date of Patent: August 26, 2003
    Assignee: Micron Technology, Inc.
    Inventors: Kevin G. Donohoe, David S. Becker
  • Publication number: 20030153175
    Abstract: In a double metal process for forming conductive contacts to integrated circuit structures, a method for preventing the sputtering of non-conductive aluminum compounds onto via sidewalls during the anisotropic oxide etch. A layer of nitride is deposited atop aluminum buried first metal pads before deposited of the silicon dioxide layer. A selective anisotropic oxide etch which selectively stops on the nitride is used to form the via through the oxide layer. Then an isotropic low-powered dry nitride etch extends the via through the nitride to the aluminum pad without producing unwanted sputtering.
    Type: Application
    Filed: July 14, 1997
    Publication date: August 14, 2003
    Inventors: GUY BLALOCK, DAVID S. BECKER