Patents by Inventor David C. Clark
David C. Clark 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).
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Patent number: 11943876Abstract: Pre-connected analyte sensors are provided. A pre-connected analyte sensor includes a sensor carrier attached to an analyte sensor. The sensor carrier includes a substrate configured for mechanical coupling of the sensor to testing, calibration, or wearable equipment. The sensor carrier also includes conductive contacts for electrically coupling sensor electrodes to the testing, calibration, or wearable equipment.Type: GrantFiled: October 23, 2018Date of Patent: March 26, 2024Assignee: DexCom, Inc.Inventors: Jason Halac, John Charles Barry, Becky L. Clark, Chris W. Dring, John Michael Gray, Kris Elliot Higley, Jeff Jackson, David A. Keller, Ted Tang Lee, Jason Mitchell, Kenneth Pirondini, David Rego, Ryan Everett Schoonmaker, Peter C. Simpson, Craig Thomas Gadd, Kyle Thomas Stewart, John Stanley Hayes
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Patent number: 11064611Abstract: A method for fabricating a printed circuit, comprising: darkening a surface location of a conductive material with one or more ultrafast pulses of laser radiation and ablating the conductive material at the surface location with one or more longer duration pulses of laser radiation to produce traces or micro via patterns on the surface of a PCB. A hole for a blind micro via is produced by ablating the conductive material at the darkened surface location with one or more longer duration pulses of laser radiation and cleaning a second conductive material under the substrate with one or more further longer duration pulses of laser radiation.Type: GrantFiled: June 29, 2018Date of Patent: July 13, 2021Assignee: IPG PHOTONICS CORPORATIONInventor: David C. Clark
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Publication number: 20200008305Abstract: A method for fabricating a printed circuit, comprising: darkening a surface location of a conductive material with one or more ultrafast pulses of laser radiation and ablating the conductive material at the surface location with one or more longer duration pulses of laser radiation to produce traces or micro via patterns on the surface of a PCB. A hole for a blind micro via is produced by ablating the conductive material at the darkened surface location with one or more longer duration pulses of laser radiation and cleaning a second conductive material under the substrate with one or more further longer duration pulses of laser radiation.Type: ApplicationFiled: June 29, 2018Publication date: January 2, 2020Applicant: IPG Photonics CorporationInventor: David C. Clark
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Patent number: 7161350Abstract: Material condition monitoring may be performed by electromagnetic sensors and sensor arrays mounted to the material surface. The sensors typically have a periodic winding or electrode structure that creates a periodic sensing field when driven by an electrical signal. The sensors can be thin and flexible so that they conform to the surface of the test material. They can also be mounted such that they do not significantly modify the environmental exposure conditions for the test material, such as by creating stand-off gaps between the sensor and material surface or by perforating the sensor substrate.Type: GrantFiled: August 4, 2003Date of Patent: January 9, 2007Assignee: Jentek Sensors, Inc.Inventors: Neil J. Goldfine, Darrell E. Schlicker, David C. Clark, Karen E. Walrath, Volker Weiss, William M. Chepolis, Andrew P. Washabaugh, Vladimir A. Zilberstein, Vladimir Tsukernik
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Patent number: 6420867Abstract: An apparatus and a method of detecting wide spread fatigue damage (WFD) on aircraft using the absolute conductivity of the metal. A meandering winding magnetometer (MWM) having a plurality of parallel spaced linear conductor elements are placed in proximity to the aircraft. An electromagnetic field is imposed on the aircraft and the resulting response is sensed. The response is transformed to determine the conductivity of the aircraft structure. The mapping of the conductivity of the aircraft structure produces an indication where microcracks are located in the structure. These early indications of the density, spatial distribution and spatial orientation, as well as the size, of the microcracks give the user an indication of WFD.Type: GrantFiled: March 13, 1998Date of Patent: July 16, 2002Assignee: Jentek Sensors, Inc.Inventors: Neil J. Goldfine, David C. Clark, Karen E. Walrath, Volker Weiss, William M. Chepolis
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Patent number: 6377039Abstract: A system for characterizing coatings and substrates of a material under test. A sensor is positioned against a coated sample which is to be measured to obtain phase and magnitude measurements. Penetration depth of the magnetic waves of the sensor is a function of frequency. Measurements are made at each of a plurality of signal frequencies. The measured phase and magnitude data is applied with respect to a frequency independent parameter, such as conductivity, using a grid method. The conductivities of the coating and the substrate are determined by the limits of conductivity with respect to frequency. With the assumed conductivities of the coating and substrate, the sensor is once again placed over the material, and coating thickness and lift-off are determined. By examining the coating thickness versus frequency the accuracy of the measurement can be determined, since actual coating thickness does not vary with frequency in the material.Type: GrantFiled: November 13, 1998Date of Patent: April 23, 2002Assignee: Jentek Sensors, IncorporatedInventors: Neil J. Goldfine, Kevin G. Rhoads, Karen E. Walrath, David C. Clark
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Publication number: 20010015643Abstract: A meandering winding magnetometer (MWM) includes a meandering primary winding and at least one sensing winding or coil on a membrane to be pressed against a test surface. The membrane may be supported on a flexible carrier which is translatable into a probe. Abutments in the probe press the carrier against the test surface but allow the carrier and membrane to conform to the test surface. One MWM circuit includes meandering primary and secondary windings. The return leads from the secondary winding return to connector pads in close alignment with the test array, while leads from the primary winding are spaced at least one wavelength from the array. In another MWM circuit, individual sensing loops are positioned within the meandering primary winding. The MWM circuit may be provided on an adhesive tape which may be cut to length.Type: ApplicationFiled: December 28, 2000Publication date: August 23, 2001Applicant: JENTEK Sensors, Inc.Inventors: Neil J. Goldfine, David C. Clark, Homer D. Eckhardt
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Patent number: 5966011Abstract: A meandering winding magnetometer (MWM) includes a meandering primary winding and at least one sensing winding or coil on a membrane to be pressed against a test surface. The membrane may be supported on a flexible carrier which is translatable into a probe. Abutments in the probe press the carrier against the test surface but allow the carrier and membrane to conform to the test surface. One MWM circuit includes meandering primary and secondary windings. The return leads from the secondary winding return to connector pads in close alignment with the test array, while leads from the primary winding are spaced at least one wavelength from the array. In another MWM circuit, individual sensing loops are positioned within the meandering primary winding. The MWM circuit may be provided on an adhesive tape which may be cut to length.Type: GrantFiled: July 27, 1998Date of Patent: October 12, 1999Assignee: Jentek Sensors, Inc.Inventors: Neil J. Goldfine, David C. Clark, Homer D. Eckhardt
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Patent number: 5927175Abstract: A cutting device for cutting elongate flat-walled tubular stock into preselected lengths which cutting device includes opposed circular cutting blades that are laterally movable to effect a transverse cut across the tubing. The cutting blades are rotatably mounted and engaged with a locking assembly to prevent rotation thereof. Each cutting blade includes a peripheral cutting edge incrementally defining a plurality of contact portions with one contact portion being disposed in an active cutting position and the remainder of the contact portions being disposed in inactive standby positions. Each cutting portion has an arcuate shape so as to minimize the vertical components of the cutting force being applied thereby as the depth of the cut approaches an interior surface of the tubing.Type: GrantFiled: September 5, 1997Date of Patent: July 27, 1999Assignee: Burr Oak Tool and Gauge Company, Inc.Inventors: Lawrence A. Franks, David C. Clark
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Patent number: 5793206Abstract: A meandering winding magnetometer (MWM) includes a meandering primary winding and at least one sensing winding or coil on a membrane to be pressed against a test surface. The membrane may be supported on a flexible carrier which is translatable into a probe. Abutments in the probe press the carrier against the test surface but allow the carrier and membrane to conform to the test surface. One MWM circuit includes meandering primary and secondary windings. The return leads from the secondary winding return to connector pads in close alignment with the test array, while leads from the primary winding are spaced at least one wavelength from the array. In another MWM circuit, individual sensing loops are positioned within the meandering primary winding. The MWM circuit may be provided on an adhesive tape which may be cut to length.Type: GrantFiled: August 23, 1996Date of Patent: August 11, 1998Assignee: JENTEK Sensors, Inc.Inventors: Neil J. Goldfine, David C. Clark, Homer D. Eckhardt
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Patent number: 5071174Abstract: In a construction for joining a copper tube (20) to a steel body (10) which may be part of a device such as an accumulator used in an air conditioning system, the copper tube is passed into an opening (14) in a wall (12) of the steel body. The opening in the steel body is bounded by a neck projection (18) which extends outward therefrom. A copper collar (24) includes a first portion (26) which accepts neck projection (18) of the steel body. A second portion (28) of the copper collar (24) accepts the copper tube. A mass (34) of brazing material is positioned in the collar in a tapered transitional portion (30) between the first and second portions of the collar. When the body, tube and collar are assembled and placed in a brazing furnace, the brazing material melts and flows by capillary action between the first portion of the collar and the outside of the neck projection of the steel body. The brazing material also flows between the second portion of the collar and the tube.Type: GrantFiled: October 18, 1990Date of Patent: December 10, 1991Assignee: Parker-Hannifin CorporationInventors: Gary E. Griffin, David C. Clark
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Patent number: 4024047Abstract: Electrostatic water treating apparatus having a hollow charging electrode with an external impervious dielectric coating immersed in the water to be treated in which the interior of the electrode is kept dry by a water tight cap telescoped over the dielectric coating and having an O-ring seal with its wet side engaging the water and its dry side vented to the atmosphere.Type: GrantFiled: January 20, 1976Date of Patent: May 17, 1977Assignee: Progressive Equipment CorporationInventors: David C. Clark, Louis H. Silverman, John K. Barnard
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Patent number: 4012310Abstract: An electrostatic water treatment system in which the high voltage d.c. supply for the charging electrode is alternately turned on and off at lower and upper voltage limits and is turned off whenever the current exceeds the desired value. The alternating voltage produced by the on-off operation of the high voltage supply is utilized to check the control circuit and provide an indication whenever the circuit is operating improperly.Type: GrantFiled: September 11, 1975Date of Patent: March 15, 1977Assignee: Progressive Equipment CorporationInventors: David C. Clark, John K. Barnard
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Patent number: D405639Type: GrantFiled: February 13, 1997Date of Patent: February 16, 1999Inventors: David C. Clark, Victor T. Clark, Jr.
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Patent number: D409443Type: GrantFiled: March 17, 1998Date of Patent: May 11, 1999Inventors: David C. Clark, Victor T. Clark, Jr.