Patents by Inventor David Broden

David Broden 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: 9389106
    Abstract: A remote seal assembly for subsea applications is provided. The assembly includes an upper housing having a fluid coupling for coupling the remote seal to a process fluid pressure measurement device. A lower housing is coupled to the upper housing and has an interface that is configured to mount to a pressure vessel. The lower housing also has a process fluid inlet. An isolation diaphragm is disposed between the upper and lower housings. At least one of the upper housing, lower housing and isolation diaphragm are constructed from a material suitable for immersion in saltwater. In some embodiments, the lower housing has a shoulder disposed about the process fluid inlet and a plurality of self-energizing seals configured to couple the assembly to a venturi flow meter body. A subsea process fluid flow measurement system is also provided that includes a pressure transmitter and at least one subsea remote seal assembly.
    Type: Grant
    Filed: March 5, 2013
    Date of Patent: July 12, 2016
    Assignee: Rosemount Inc.
    Inventors: Ivar Breen, Brent W. Miller, Jay Scheldorf, Gokhan Aydar, David Broden
  • Patent number: 9010191
    Abstract: A co-planar differential pressure sensor module is provided. The module includes a base having a pair of recesses. A pair of pedestals is also provided where each pedestal is disposed in a respective recess and is coupled to a respective isolation diaphragm. A differential pressure sensor has a sensing diaphragm and a pair of pressure sensing ports. Each port of the differential pressure sensor is fluidically coupled to a respective isolation diaphragm by a fill fluid. The module also includes circuitry coupled to the differential pressure sensor to measure an electrical characteristic of the sensor that varies with differential pressure. The base is constructed from a material that is suitable for submersion in seawater. A method of constructing a co-planar differential pressure sensor module is also provided. In another embodiment, a pressure sensor module is provided. The pressure sensor module includes a base having a recess. A pedestal is disposed in the recess and is coupled to an isolation diaphragm.
    Type: Grant
    Filed: September 28, 2012
    Date of Patent: April 21, 2015
    Assignee: Rosemount Inc.
    Inventors: David Strei, David Broden, Ivar Breen
  • Patent number: 8640621
    Abstract: A training cartridge projectile for use in either a plastic cartridge case or a conventional metal cartridge case is disclosed that contains no explosive material. The projectile has an insert having a body portion and a front end, a container overmolded onto the body portion of the insert, a frangible ogive fastened to the front end of the tubular insert; and a payload module within the ogive in front of the container carrying a nonexplosive signature material for providing a visual indication of projectile impact to an observer upon projectile impact with an object. The module includes a hollow frangible ampoule containing the signature material, and a generally disc shaped base member engaging the insert and closing the ampoule. The base member preferably has a set of axially extending vanes engaging the signature material during spin-up as the projectile is accelerated through the bore of the weapon firing the projectile.
    Type: Grant
    Filed: March 14, 2013
    Date of Patent: February 4, 2014
    Assignee: AMTEC Corporation
    Inventors: David Broden, Victor H. Strobush, Corey Weis
  • Publication number: 20130233058
    Abstract: A remote seal assembly for subsea applications is provided. The assembly includes an upper housing having a fluid coupling for coupling the remote seal to a process fluid pressure measurement device. A lower housing is coupled to the upper housing and has an interface that is configured to mount to a pressure vessel. The lower housing also has a process fluid inlet. An isolation diaphragm is disposed between the upper and lower housings. At least one of the upper housing, lower housing and isolation diaphragm are constructed from a material suitable for immersion in saltwater. In some embodiments, the lower housing has a shoulder disposed about the process fluid inlet and a plurality of self-energizing seals configured to couple the assembly to a venturi flow meter body. A subsea process fluid flow measurement system is also provided that includes a pressure transmitter and at least one subsea remote seal assembly.
    Type: Application
    Filed: March 5, 2013
    Publication date: September 12, 2013
    Inventors: Ivar Breen, Brent W. Miller, Jay Scheldorf, Gokhan Aydar, David Broden
  • Patent number: 8424456
    Abstract: A training cartridge projectile for use in either a plastic cartridge case or a conventional metal cartridge case is disclosed that contains no explosive material. The projectile has an insert having a body portion and a front end, a container overmolded onto the body portion of the insert, a frangible ogive fastened to the front end of the tubular insert; and a payload module within the ogive in front of the container carrying a non-explosive signature material for providing a visual indication of projectile impact to an observer upon projectile impact with an object. The module includes a hollow frangible ampoule containing the signature material, and a generally disc shaped base member engaging the insert and closing the ampoule. The base member preferably has a set of axially extending vanes engaging the signature material during spin-up as the projectile is accelerated through the bore of the weapon firing the projectile.
    Type: Grant
    Filed: September 22, 2010
    Date of Patent: April 23, 2013
    Assignee: AMTEC Corporation
    Inventors: David Broden, Victor H. Strobush, Corey Weis
  • Publication number: 20110079164
    Abstract: A training cartridge projectile for use in either a plastic cartridge case or a conventional metal cartridge case is disclosed that contains no explosive material. The projectile has an insert having a body portion and a front end, a container overmolded onto the body portion of the insert, a frangible ogive fastened to the front end of the tubular insert; and a payload module within the ogive in front of the container carrying a non-explosive signature material for providing a visual indication of projectile impact to an observer upon projectile impact with an object. The module includes a hollow frangible ampoule containing the signature material, and a generally disc shaped base member engaging the insert and closing the ampoule. The base member preferably has a set of axially extending vanes engaging the signature material during spin-up as the projectile is accelerated through the bore of the weapon firing the projectile.
    Type: Application
    Filed: September 22, 2010
    Publication date: April 7, 2011
    Applicant: Amtec Corporation
    Inventors: David Broden, Victor H. Strobush, Corey Weis
  • Publication number: 20070285224
    Abstract: A field device for use in an industrial process control or monitoring system includes terminals configured to connect to a two-wire process control loop. The loop carries data and provides power to the field device. RF circuitry in the field device is provided for radio frequency communication. A power supply powers the RF circuitry using power received from the two-wire process control loop.
    Type: Application
    Filed: August 21, 2007
    Publication date: December 13, 2007
    Inventors: Robert Karschnia, Charles Willcox, David Broden, Brian Westfield, Kelly Orth
  • Publication number: 20060278005
    Abstract: A pressure sensor including a deformable sensor body formed of a compressible material. A deformation sensor is embedded in the deformable sensor body and has an electrical property which changes in response to deformation of the deformable sensor body. Electrical connections which extend from outside the deformable sensor body to the embedded deformation sensor to provide an indication of an applied line pressure or differential pressure.
    Type: Application
    Filed: May 26, 2005
    Publication date: December 14, 2006
    Inventors: David Broden, Robert Hedtke
  • Publication number: 20060212139
    Abstract: A process coupling for coupling a diagnostic device to process fluid of an industrial process includes a process interface configured to physically couple to the process fluid. A fluid pathway extending from the process interface configured to couple a process interface element of the process device to the process fluid. The fluid pathway is configured to optimize transmission of process noise from the process fluid to the process device for use by the diagnostic device.
    Type: Application
    Filed: February 28, 2006
    Publication date: September 21, 2006
    Inventors: Robert Hedtke, David Broden
  • Publication number: 20060162459
    Abstract: A pressure transmitter assembly for measuring a pressure of a process fluid includes an isolation diaphragm assembly configured to couple to a process fluid. A pressure sensor is coupled to the isolation diaphragm assembly and is configured to sense a pressure. An isolation diaphragm coupling flange is provided to carry the isolation diaphragm assembly and includes a cutaway portion to provide thermal isolation.
    Type: Application
    Filed: March 23, 2006
    Publication date: July 27, 2006
    Inventor: David Broden
  • Publication number: 20060162458
    Abstract: An isolation assembly for connection to a process transmitter and for mitigating high temperature effects of a process fluid includes a process coupling face having an isolation diaphragm configured to contact process fluid. A transmitter coupling has a pressure coupling configured to couple to a pressure port of the process transmitter. A temperature isolation fluid conduit extends between the process coupling face and the transmitter coupling and carries an isolation fluid which couples a pressure applied to the isolation diaphragm to the pressure coupling to minimize high temperature effects of the process fluid on the process transmitter.
    Type: Application
    Filed: March 24, 2006
    Publication date: July 27, 2006
    Inventor: David Broden
  • Publication number: 20060152800
    Abstract: The present invention is a viewing device for positioning in front of a local display of an industrial transmitter. The viewing device has optics that receive light from the local display along a first line of sight, redirect the light, and transmit the light along a second line of sight. The second line of sight is disposed at an angle relative to the first line of sight.
    Type: Application
    Filed: January 7, 2005
    Publication date: July 13, 2006
    Applicant: Rosemont, Inc.
    Inventor: David Broden
  • Publication number: 20050289276
    Abstract: A field device for use in an industrial process control or monitoring system includes terminals configured to connect to a two-wire process control loop. The loop carries data and provides power to the field device. RF circuitry in the field device is provided for radio frequency communication. A power supply powers the RF circuitry using power received from the two-wire process control loop.
    Type: Application
    Filed: June 28, 2004
    Publication date: December 29, 2005
    Inventors: Robert Karschnia, Charles Willcox, David Broden, Brian Westfield, Kelly Orth
  • Publication number: 20050284227
    Abstract: A pressure transmitter assembly for measuring a pressure of a process fluid includes an isolation diaphragm assembly. A pressure sensor is spaced apart from the isolation diaphragm assembly to provide thermal isolation. A conduit extends from the isolation diaphragm assembly to the pressure sensor and is configured to carry isolation fill fluid.
    Type: Application
    Filed: June 25, 2004
    Publication date: December 29, 2005
    Inventors: David Broden, Kelly Orth, Chad McGuire, Fred Sittler
  • Publication number: 20050172738
    Abstract: A process control instrument for coupling to a process is attachable to a metal flange. The flange has a first passageway adapted to be filled with process fluid. The process control instrument includes a body having an opening adjacent to the first passageway for receiving process fluid from the first passageway when the process control instrument is attached to the flange. A diaphragm is disposed across the opening for fluid communication with the process fluid. A seal is positionable against the flange to prevent process fluid from leaking past the flange and diaphragm. The seal includes a ring positioned in the opening and coupled to the body, the ring being substantially in contact with the diaphragm along an inner annular shoulder when the body is not attached to the flange (unloaded).
    Type: Application
    Filed: February 9, 2004
    Publication date: August 11, 2005
    Inventor: David Broden
  • Publication number: 20050072243
    Abstract: A process seal for a process control transmitter is provided. The seal includes a contact region which provides a metal to metal seal against a coupling flange.
    Type: Application
    Filed: October 6, 2003
    Publication date: April 7, 2005
    Inventors: David Broden, Daniel Norberg
  • Publication number: 20050066703
    Abstract: A pressure sensor of a process device, is characterized by applying a plurality of pressures to the process sensor. Outputs of the plurality of pressures are received. A compensation relationship is determined based upon the pressure sensor output. The characterization data is collected in a distribution which is non-uniform across the pressure range.
    Type: Application
    Filed: September 30, 2003
    Publication date: March 31, 2005
    Inventors: David Broden, Timothy Fogarty, David Wiklund, Terry Beachey, Mark Schumacher
  • Publication number: 20050016286
    Abstract: A capacitive pressure transmitter is provided. In one aspect, the transmitter includes a capacitive pressure sensor coupled directly to the measured media without any intervening fluid isolation. A filter is preferably used to keep particulates from reaching the measuring diaphragm. In another aspect, a capacitive pressure transmitter is provided with at least one self-contained isolator interposed between a process connection and the capacitive pressure sensor. In both aspects, the capacitive pressure transmitter is relatively small and preferably constructed from materials that facilitate low-cost manufacture.
    Type: Application
    Filed: August 20, 2004
    Publication date: January 27, 2005
    Applicant: Rosemount Inc.
    Inventors: David Broden, David Horky