Patents by Inventor Jeremy Ohse
Jeremy Ohse 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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Publication number: 20210381417Abstract: A heating apparatus for heating fluid includes a container body, a plurality of electric heater elements, and a support structure. The container body defines a perimeter of a flow path for a fluid flowing through the container body. The plurality heater elements are exposed to the flow path. Each heater element includes a resistance element, sheath, and insulating material disposed about the resistance element between the resistance element and the sheath. The support structure includes a plurality of support sheets. The heater elements extend transversely through each support sheet and contact each support sheet to restrict movement of the heater elements and support the heater elements in the container body. The support sheets contact the sheaths of the electric heater elements to increase heat transfer to the fluid flowing through the flow path. Opposite ends of each support sheet are connected to the container body.Type: ApplicationFiled: August 25, 2021Publication date: December 9, 2021Applicant: WATLOW ELECTRIC MANUFACTURING COMPANYInventors: Mark D. EVERLY, Jeremy OHSE, David P. CULBERTSON, Richard T. WILLIAMS, George JAMBOR, Jacob WILSON
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Publication number: 20210318177Abstract: A method of calibrating temperature of a resistive element having a material with a Curie temperature includes generating a standard resistance-temperature (R-T) curve for the resistive element in isothermal conditions to identify values of the R-T curve and an inflection point at the Curie temperature, generating operational R-T curves for the resistive element over an operational time period, comparing the standard R-T curve to the operational R-T curves, and adjusting the operational curves to the standard R-T curve at the Curie temperature to calibrate temperature of the resistive element.Type: ApplicationFiled: April 8, 2021Publication date: October 14, 2021Applicant: WATLOW ELECTRIC MANUFACTURING COMPANYInventors: David P. CULBERTSON, Steven Jystad, Roger BRUMMELL, Sanhong ZHANG, Jeremy OHSE, Pete KOSS, Austin JOHANNES
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Patent number: 11131227Abstract: A heating apparatus for a fluid flow system having a fluid conduit includes at least one heater element and a support member within the conduit. The at least one heater element includes a resistance wire, a sheath, and an electrically insulating material. The sheath has a closed profile shape that extends along a tortuous path through the container body and surrounds the resistance wire along the tortuous path. The insulating material is disposed about the wire between the wire and the sheath. The support member restricts movement of the at least one heater element relative to the fluid conduit. The support member defines a corrugated geometry that follows the tortuous path while contacting the sheath along a majority of a length of the sheath. The support member increases heat transfer from the at least one heater element to a fluid flowing through the fluid conduit.Type: GrantFiled: March 2, 2020Date of Patent: September 28, 2021Assignee: WATLOW ELECTRIC MANUFACTURING COMPANYInventors: Mark D. Everly, Jeremy Ohse, David P. Culbertson, Richard T. Williams, George Jambor, Jacob Wilson
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Patent number: 11096248Abstract: The present disclosure is directed toward a heater that includes a resistive heating element, a first power pin, and a second power pin. The first power pin forms a first junction with a first end of the resistive heating element, and the second power pin forms a second junction with the second end of the resistive heating element. The second power pin includes a first lead wire and a second lead wire. The first lead wire forms the second junction with the second end of the resistive heating element and defines a first conductive material. The second lead wire forms a primary sensing junction with the first lead wire at a first reference area, and defines a second conductive material different from the first conductive material to measure a temperature at the first reference area based on a voltage change created by the primary sensing junction.Type: GrantFiled: April 11, 2018Date of Patent: August 17, 2021Assignee: Watlow Electric Manufacturing CompanyInventors: Terry Colhour, Douglas Schaefer, Jeremy Ohse, Jacob Burnia, Eric Ellis, Louis P. Steinhauser
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Patent number: 11029217Abstract: A sensor assembly includes a housing having a body having a distal end portion defining an internal cavity and a proximal end portion defining a plurality of internal passageways. A micro-sensor is disposed within the internal cavity and exposed to the outside environment and an internal wall separates the internal cavity from the plurality of internal passageways. The micro-sensor abuts the internal wall.Type: GrantFiled: January 17, 2020Date of Patent: June 8, 2021Assignee: Watlow Electric Manufacturing CompanyInventors: Jeremy Ohse, Graham Fischer, Ryan Affara
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Patent number: 10934921Abstract: A method of predicting the temperature of a resistive heating element in a heating system is provided. The method includes obtaining resistance characteristics of resistive heating elements and compensating for variations in the resistance characteristics over a temperature regime. The resistance characteristics of the resistive heating element include, but are not limited to, inaccuracies in resistance measurements due to strain-induced resistance variations, variations in resistance due to the rate of cooling, shifts in power output due to exposure to temperature, resistance to temperature relationships, non-monotonic resistance to temperature relationships, system measurement errors, and combinations of resistance characteristics. The method includes interpreting and calibrating resistance characteristics based on a priori measurements and in situ measurements.Type: GrantFiled: March 2, 2017Date of Patent: March 2, 2021Assignee: Watlow Electric Manufacturing CompanyInventors: David P. Culbertson, Jeremy Ohse, Mark D. Everly, Jeremy J. Quandt, James Pradun, John Rohde, Mark L. G. Hoven, Bret Wadewitz, Sanhong Zhang
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Patent number: 10801388Abstract: A heating apparatus and method for use in an exhaust gas system is provided that includes a container body defining an exhaust gas pathway, a heater flange component attached to an exterior of the container body, and a heater assembly disposed in the exhaust gas pathway and secured to the heater flange component. The heater assembly includes at least one heater element, a bracket assembly that secures the at least one heater element in the container body, and a conformal bracket for securing the at least one heater element to the bracket assembly.Type: GrantFiled: December 18, 2013Date of Patent: October 13, 2020Assignee: Watlow Electric Manufacturing CompanyInventors: David P. Culbertson, Richard T. Williams, Jr., Christopher Meyers, Jeremy Ohse, Mark Everly, Roger Brummell, Gerald S. Jackson, Jake Spooler, James N. Pradun, Scott H. Boehmer, Mitchell T. Diaco, Robert K. Frake
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Publication number: 20200284179Abstract: A control system for use in a fluid flow application includes a heater and a control device. The heater has at least one resistive heating element and the heater is operable to heat fluid. The control device determines at least one flow characteristic of a fluid flow based on a heat loss of the at least one resistive heating element and determines a mass flow rate of the fluid based on the at least one flow characteristic and a property of the at least one resistive heating element. And the property of the at least one resistive heating element includes a change in resistance of the at least one resistive heating element under a given heat flux density.Type: ApplicationFiled: May 27, 2020Publication date: September 10, 2020Applicant: WATLOW ELECTRIC MANUFACTURING COMPANYInventors: Cal SWANSON, Mark D. EVERLY, David P. CULBERTSON, Jemes N. PRADUN, Jeremy J. QUANDT, Mark L. G. HOVEN, Jeremy OHSE, Sanhong ZHANG
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Publication number: 20200284180Abstract: A method for operating a heater system including a resistive heating element having a material with a non-monotonic resistivity vs. temperature profile is provided. The method includes heating the resistive heating element to within a limited temperature range in which the resistive heating element exhibits a negative dR/dT characteristic, operating the resistive heating element within an operating temperature range that at least partially overlaps the limited temperature range, and determining a temperature of the resistive heating element such that the resistive heating element functions as both a heater and a temperature sensor. The resistive heating element can function as a temperature sensor in a temperature range between about 500° C. and about 800° C., and the non-monotonic resistivity vs. temperature profile for the material of the resistive heating element can have a local maximum and a local minimum.Type: ApplicationFiled: May 27, 2020Publication date: September 10, 2020Applicant: WATLOW ELECTRIC MANUFACTURING COMPANYInventors: Mark D. EVERLY, Jeremy OHSE, Patrick MARGAVIO, Sanhong ZHANG
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Patent number: 10760465Abstract: A heater is provided that includes at least one resistive heating element having a material with a non-monotonic resistivity vs. temperature profile and exhibiting a negative dR/dT characteristic over a predetermined operating temperature range along the profile. The heater can include a plurality of circuits disposed in a fluid path to heat fluid flow.Type: GrantFiled: March 2, 2017Date of Patent: September 1, 2020Assignee: WATLOW ELECTRIC MANUFACTURING COMPANYInventors: Mark D. Everly, Jeremy Ohse, Patrick Margavio, Sanhong Zhang
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Patent number: 10724417Abstract: A control system for use in a fluid flow application is provided. The control system includes a heater having at least one resistive heating element. The heater is adapted to heat the fluid flow. The control system further includes a control device that uses heat loss from at least one resistive heating element to determine flow characteristics of the fluid flow.Type: GrantFiled: March 2, 2017Date of Patent: July 28, 2020Assignee: WATLOW ELECTRIC MANUFACTURING COMPANYInventors: Cal Swanson, Mark D. Everly, David P. Culbertson, James N. Pradun, Jeremy J. Quandt, Mark L. G. Hoven, Jeremy Ohse, Sanhong Zhang
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Publication number: 20200236739Abstract: A heater system is provided, which includes a plurality of heaters, a controller for supplying power to the plurality of heaters, a plurality sets of auxiliary wires extending from the plurality of heaters, and a wire harness for connecting the plurality sets of auxiliary wires to the controller. Each set of auxiliary wires includes three wires, two of the three wires being made of different materials and being joined to form a thermocouple junction, such that each of the plurality of heaters is operable to function as both a heater and a temperature sensor.Type: ApplicationFiled: April 6, 2020Publication date: July 23, 2020Applicant: Watlow Electric Manufacturing CompanyInventors: Jeremy OHSE, Douglas SCHAEFER, Eric ELLIS
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Publication number: 20200200060Abstract: A heating apparatus for a fluid flow system having a fluid conduit includes at least one heater element and a support member within the conduit. The at least one heater element includes a resistance wire, a sheath, and an electrically insulating material. The sheath has a closed profile shape that extends along a tortuous path through the container body and surrounds the resistance wire along the tortuous path. The insulating material is disposed about the wire between the wire and the sheath. The support member restricts movement of the at least one heater element relative to the fluid conduit. The support member defines a corrugated geometry that follows the tortuous path while contacting the sheath along a majority of a length of the sheath. The support member increases heat transfer from the at least one heater element to a fluid flowing through the fluid conduit.Type: ApplicationFiled: March 2, 2020Publication date: June 25, 2020Applicant: WATLOW ELECTRIC MANUFACTURING COMPANYInventors: Mark D. Everly, Jeremy Ohse, David P. Culbertson, Richard T. Williams, George Jambor, Jacob Wilson
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Publication number: 20200149977Abstract: A sensor assembly includes a housing having a body having a distal end portion defining an internal cavity and a proximal end portion defining a plurality of internal passageways. A micro-sensor is disposed within the internal cavity and exposed to the outside environment and an internal wall separates the internal cavity from the plurality of internal passageways. The micro-sensor abuts the internal wall.Type: ApplicationFiled: January 17, 2020Publication date: May 14, 2020Applicant: Watlow Electric Manufacturing CompanyInventors: Jeremy OHSE, Graham FISCHER, Ryan AFFARA
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Patent number: 10598064Abstract: A heating apparatus for an exhaust gas system, or a fluid flow system, is provided by the present disclosure. The heating apparatus has a container body and includes at least one heater element and a support member disposed inside the container body and configured for restricting movement of the at least one heater element in the container body. The support member defines a tortuous geometry and flanks opposed sides of the at least one insulated heater element along a majority of a length of the at least one insulated heater element, wherein the support member increases heat transfer from the at least one heater element to an exhaust gas flowing through the container body.Type: GrantFiled: March 2, 2017Date of Patent: March 24, 2020Assignee: Watlow Electric Manufacturing CompanyInventors: Mark D. Everly, Jeremy Ohse, David P. Culbertson, Richard T. Williams, George Jambor, Jacob Wilson
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Patent number: 10571343Abstract: A sensor assembly is provided that includes a housing having a unitary body with a proximal end portion and a distal end portion. The distal end portion is open and defines an internal cavity exposed to an outside environment, and the proximal end portion defines a plurality of internal passageways that extend and open into the internal cavity. A thin film resistive temperature device (RTD), or other micro-sensor, is disposed within the internal cavity, the thin film RTD having a plurality of lead wires that extend through the plurality of internal passageways, and the thin film RTD being in contact with at least one wall of the internal cavity. The thin film RTD and the lead wires are secured within the housing by a thermal adhesive having a matched coefficient of thermal expansion with that of the housing and the thin film RTD substrate.Type: GrantFiled: October 23, 2015Date of Patent: February 25, 2020Assignee: Watlow Electric Manufacturing CompanyInventors: Jeremy Ohse, Graham Fischer, Ryan Affara
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Publication number: 20200045775Abstract: A heater system is provided. The system includes a resistive element with a temperature coefficient of resistance (TCR) of at least about 1,000 ppm such that the resistive element functions as a heater and as a temperature sensor and the resistive element is a material having greater than about 95% nickel. The system also includes a heater control module including a two-wire controller with a power control module that is configured to periodically compare a measured resistance value of the resistive element against a reference temperature to adjust for resistance drift over time during operation such that a temperature drift of the resistive element is less than about 1% over a temperature range of about 500° C.-1,000° C.Type: ApplicationFiled: October 14, 2019Publication date: February 6, 2020Applicant: Watlow Electric Manufacturing CompanyInventors: Jeremy OHSE, Jake SPOOLER, Phillip S. SCHMIDT, Patrick MARGAVIO, Melissa LANHAM, Paul VALACHOVIC, Brittany PHILLIPS, Mark Denis EVERLY
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Patent number: 10448458Abstract: A heater includes at least one resistive element. The at least one resistive element includes a material having a high temperature coefficient of resistance (TCR) such that the resistive element functions as a heater and as a temperature sensor, the resistive element being a material selected from the group consisting of greater than about 95% nickel, a nickel copper alloy, stainless steel, a molybdenum-nickel alloy, niobium, a nickel-iron alloy, tantalum, zirconium, tungsten, molybdenum, Nisil, and titanium. In one form, the heater is a tubular heater with compacted MgO insulation and a metal sheath.Type: GrantFiled: October 23, 2017Date of Patent: October 15, 2019Assignee: Watlow Electric Manufacturing CompanyInventors: Jeremy Ohse, Jake Spooler, Phillip S. Schmidt, Patrick Margavio, Melissa Lanham, Paul Valachovic, Brittany Phillips, Mark Denis Everly
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Publication number: 20190032958Abstract: A fluid sensor system detects one or more performance characteristics of a heating system that heats a fluid. The sensor system includes a probe having a finite length a portion of which is to be immersed in the fluid. The probe includes a resistive heating element and a fluid temperature sensor for measuring one or more performance characteristics, wherein the fluid temperature sensor is configured to measure a fluid temperature, and the resistive heating element is operable as a heater to create a temperature differential between the fluid and air to detect the fluid, and as a sensor to measure a fluid level.Type: ApplicationFiled: July 27, 2018Publication date: January 31, 2019Applicant: Watlow Electric Manufacturing CompanyInventors: Jeremy OHSE, Louis P. STEINHAUSER, Mark EVERLY, Brett BRADSHAW
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Publication number: 20180235028Abstract: The present disclosure is directed toward a heater that includes a resistive heating element, a first power pin, and a second power pin. The first power pin forms a first junction with a first end of the resistive heating element, and the second power pin forms a second junction with the second end of the resistive heating element. The second power pin includes a first lead wire and a second lead wire. The first lead wire forms the second junction with the second end of the resistive heating element and defines a first conductive material. The second lead wire forms a primary sensing junction with the first lead wire at a first reference area, and defines a second conductive material different from the first conductive material to measure a temperature at the first reference area based on a voltage change created by the primary sensing junction.Type: ApplicationFiled: April 11, 2018Publication date: August 16, 2018Applicant: Watlow Electric Manufacturing CompanyInventors: Terry Colhour, Douglas Schaefer, Jeremy Ohse, Jacob Burnia, Eric Ellis, Louis P. Steinhauser