Patents Assigned to Micro Motion, Inc.
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Publication number: 20220395933Abstract: A method for forming a pressure fit hermetic seal between a second component (104) and an interior member (108) is disclosed. The method comprises steps of coupling the second component (104) to a first component (102) by applying heat to one or more of the first component (102) and the second component (104) and allowing the first component (102) and the second component (104) to cool, wherein the applying heat step and allowing to cool step form the hermetic seal by causing compression of a hermetic element (106) against the second component (104) and by causing compression of the hermetic element (106) against the interior member (108).Type: ApplicationFiled: November 13, 2019Publication date: December 15, 2022Applicant: MICRO MOTION, INC.Inventor: Clinton R. GRIFFIN
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Publication number: 20220397948Abstract: An electrical transmitter (100) is provided that comprises an ethernet connection (118) and a power source. Electronics (112) are configured to receive the ethernet connection (118) and the power source. The electronics (112) comprise logic operable to detect the power source and accept power from either the ethernet connection (118) or a dedicated power connection (116). A remappable power connection terminal (114) with the electronics (112) is operable to accept power when the dedicated power connection (116) is detected, and operable to accept a non-power connection when power from the ethernet connection (118) is detected.Type: ApplicationFiled: November 13, 2019Publication date: December 15, 2022Applicant: MICRO MOTION, INC.Inventors: Andrew S. KRAVITZ, Tonya L. WYATT, Anthony GENTILE
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Publication number: 20220390267Abstract: A vibratory flowmeter (5) for meter verification is provided, including meter electronics (20) coupled to the first and second pickoff sensors (170L, 170R) and coupled to a driver (180), with the meter electronics (20) configured to: vibrate the flowmeter assembly (10) in a single mode using the driver (180), determine a single mode current (230) of the driver (180) and determine first and second response voltages (231) generated by the first and second pickoff sensors (170L, 170R), respectively, compute frequency response functions for the determined first and second response voltages (231) from the determined single mode current (230), fit the generated frequency response functions to a pole-residue model, and verify proper operation of the vibratory flowmeter (5) using the meter stiffness value (216), residual flexibility (218), and the meter mass (240) in embodiments.Type: ApplicationFiled: August 9, 2022Publication date: December 8, 2022Applicant: Micro Motion, Inc.Inventors: Timothy J. Cunningham, David J. Kapolnek, Matthew J. Rensing, Christopher George Larsen
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Publication number: 20220390343Abstract: A meter electronics (20) for detecting an orientation and compensating a measurement based on the detected orientation is provided. The meter electronics (20) comprises an interface (401) configured to communicatively couple to a sensor assembly (10) and a processing system (402). The processing system (402) is configured to detect an orientation of the sensor assembly (10) based on one or more sensor signals provided by the sensor assembly (10).Type: ApplicationFiled: November 13, 2019Publication date: December 8, 2022Applicant: MICRO MOTION, INC.Inventor: Marc Allan BUTTLER
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Publication number: 20220390262Abstract: A method for inferring an inferred speed of sound of a flow fluid is disclosed. The method is conducted by a computer system (200) having a processor (210) and a memory (220), the processor (210) configured to execute instructions from the memory (220) and store data in the memory (220), the memory (220) having a SoS inference module (202). The method includes inferring, by the SoS inference module (202), the inferred speed of sound of the flow fluid based on an inferential relationship between a measured density of the flow fluid and the inferred speed of sound of the flow fluid.Type: ApplicationFiled: November 1, 2019Publication date: December 8, 2022Applicant: MICRO MOTION, INC.Inventors: Andrew Timothy PATTEN, Anthony William PANKRATZ
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Publication number: 20220381599Abstract: A Coriolis flow meter (100) comprises a driver (180) coupled to a flow tube (800,900), the driver (180) configured to oscillate the flow tube in a drive direction, a pick-off sensor (170L, 170R) coupled to the flow tube (800,900), configured to measure a movement of the flow tube (800,900), and the flow tube (800,900) comprises a conduit (852) having an interior surface (854), and a plurality of inserts (856a, 856b, 856c, 856d, 956a, 956b), each respective insert of the plurality of inserts (856a, 856b, 856c, 856d, 956a, 956b) being coupled to at least a first position (858) on the interior surface (854) of the conduit (852).Type: ApplicationFiled: November 6, 2019Publication date: December 1, 2022Applicant: MICRO MOTION, INC.Inventors: Gregory Treat LANHAM, Christopher A. WERBACH
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Patent number: 11499857Abstract: A system (600, 700) for correcting a measured flow rate for viscosity effects of a fluid in a vibratory meter (5) is provided. The system (600, 700) includes a sensor assembly (10) and a meter electronics (20) communicatively coupled to the sensor assembly (10). The meter electronics (20) is configured to receive sensor signals from the sensor assembly (10), determine a non-viscosity correlation parameter based on the sensor signals, and correlate the non-viscosity correlation parameter to a viscosity of a fluid in the sensor assembly (10).Type: GrantFiled: May 11, 2017Date of Patent: November 15, 2022Assignee: Micro Motion, Inc.Inventor: Dean M. Standiford
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Patent number: 11493374Abstract: A system (800) for minimizing a crest in a multi-tone drive signal in a vibratory meter (5) is provided. The system (800) includes a drive signal generator (810) configured to generate the multi-tone drive signal for the vibratory meter (5) and a drive signal detector (820). The drive signal detector (820) is configured to receive the multi-tone drive signal, determine a first maximum amplitude of the multi-tone drive signal having a component at a first phase, determine a second maximum amplitude of the multi-tone drive signal having the component at a second phase, and compare the first maximum amplitude and the second maximum amplitude.Type: GrantFiled: June 14, 2017Date of Patent: November 8, 2022Assignee: Micro Motion, Inc.Inventors: Timothy J. Cunningham, Matthew Joseph Rensing, Mark James Bell
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Publication number: 20220349867Abstract: A method for inferring energy content of a flow fluid in a gaseous state is disclosed. The method is carried out by a computer system (200) having a processor (210) and memory (220), the memory (220) having an inference module (204), the method comprising inferring, by the inference module (204), the inferred energy content of the flow fluid in the gaseous state from an inferential relationship between the inferred energy content of the flow fluid in the gaseous state with at least one measurement taken of the flow fluid in the liquid state.Type: ApplicationFiled: October 3, 2019Publication date: November 3, 2022Applicant: MICRO MOTION, INC.Inventors: George Alexander MACDONALD, Tony WRIGHT, Timothy James PEGG, Hans Christopher LOEWENHEATH, Anthony William PANKRATZ
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Publication number: 20220349797Abstract: A method for determining an inferential relationship between an inferred energy content and at least one measured quantity is disclosed. The inferential relationship yields an inferred energy content.Type: ApplicationFiled: September 9, 2019Publication date: November 3, 2022Applicant: MICRO MOTION, INC.Inventor: George Alexander MACDONALD
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Patent number: 11486752Abstract: A method for determining a mass flow measurement is provided. The method comprises calibrating a flowmeter sensor at a first temperature and flowing a fluid having a second temperature through the flowmeter sensor. A density of the fluid is input into meter electronics. A compensated mass flow value of the fluid is determined by meter electronics, wherein the Modulus of Elasticity of the flowmeter sensor is unknown.Type: GrantFiled: March 28, 2019Date of Patent: November 1, 2022Assignee: MICRO MOTION, INC.Inventors: Andrew Timothy Patten, Robert Barclay Garnett
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Patent number: 11486750Abstract: Vibratory meters (5), and methods for their use measuring a fluid are provided. Each vibratory meter includes a multichannel flow tube (300) comprising two or more fluid channels (302), a pickoff (170), a driver (180), and meter electronics (20) configured to apply a drive signal to the driver at a drive frequency ?, and measure a deflection of the multichannel flow tube with the pickoff. In examples, at least one fluid channel has an effective diameter that is related to velocity of sound and drive velocity. In further examples, the driver may apply a drive signal to the driver having a drive frequency proportional to the velocity of sound and effective diameter.Type: GrantFiled: February 6, 2020Date of Patent: November 1, 2022Assignee: Micro Motion, Inc.Inventors: Mark James Bell, Joel Weinstein, Mitalee Nayan Desai, Clinton R. Griffin
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Patent number: 11473947Abstract: A vortex flowmeter includes a housing having an interior cavity, a vortex shedder supported by the housing and extending into the interior cavity, an ultrasonic sensor, a bending moment sensor and a controller. The ultrasonic sensor is configured to produce an ultrasonic flow rate output that is indicative of the flow rate of a fluid flow through the interior cavity. The bending moment sensor is configured to produce a bending moment flow rate output that is indicative of the flow rate of the fluid flow through the interior cavity. The controller is configured to generate a flow rate measurement that is indicative of the flow rate based on the ultrasonic flow rate output and/or the bending moment flow rate output.Type: GrantFiled: December 24, 2018Date of Patent: October 18, 2022Assignee: MICRO MOTION, INC.Inventors: Aleksandr Mikhailovich Druzhkov, Andrey Vasilyevich Babenkov, Anton Alexeyevich Chernovol
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Patent number: 11473961Abstract: A vibratory flowmeter (5) for meter verification is provided, including meter electronics (20) coupled to the first and second pickoff sensors (170L, 170R) and coupled to a driver (180), with the meter electronics (20) configured to: vibrate the flowmeter assembly (10) in a single mode using the driver (180), determine a single mode current (230) of the driver (180) and determine first and second response voltages (231) generated by the first and second pickoff sensors (170L, 170R), respectively, compute frequency response functions for the determined first and second response voltages (231) from the determined single mode current (230), fit the generated frequency response functions to a pole-residue model, and verify proper operation of the vibratory flowmeter (5) using the meter stiffness value (216), residual flexibility (218), and the meter mass (240) in embodiments.Type: GrantFiled: November 30, 2020Date of Patent: October 18, 2022Assignee: Micro Motion, Inc.Inventors: Timothy J Cunningham, David J Kapolnek, Matthew J Rensing, Christopher George Larsen
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Patent number: 11473954Abstract: A manifold (400, 600, 700) with reduced vortex shedding, a vibrator) meter (5) including the same, and a method of manufacturing both are described. The manifold (400, 600, 700) comprises a first conduit section (202), a second conduit section (204), a splitter section (406, 606, 706) positioned between the first conduit section (202) and the second conduit section (204), the splitter section (406, 606, 706) including a first splitter face (408a, 608a, 708) facing the first conduit section (202), and a first protrusion (412a, 612a. 712), at least a portion of which is positioned on the first splitter face (408a, 608a, 708).Type: GrantFiled: July 27, 2018Date of Patent: October 18, 2022Assignee: MICRO MOTION, INC.Inventors: David Skinkle, Anthony William Pankratz, Jeffry D. Foster
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Publication number: 20220326060Abstract: A method for detecting a deviation in a flow meter parameter is provided. The method includes measuring a flow tube temperature in a plurality of locations; and calculating a temperature gradient based on the measured temperatures. The method also includes detecting a deviation in the flow meter parameter if the calculated temperature gradient exceeds a temperature gradient threshold.Type: ApplicationFiled: June 28, 2022Publication date: October 13, 2022Applicant: Micro Motion, Inc.Inventors: Timothy J. CUNNINGHAM, Andrew Timothy PATTEN
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Publication number: 20220307883Abstract: A meter electronics (20) configured to notify of an event and apportion process data is provided. The meter electronics (20) comprises a memory (230) configured to continuously store the process data (410) for a duration (412), a processor (210) communicatively coupled to the memory (230). The processor (210) is configured to detect one or more events (430) in the process data (410) and at least one of generate a notification (460) and apportion the process data (410) based on the detected one or more events (430).Type: ApplicationFiled: September 25, 2019Publication date: September 29, 2022Applicant: MICRO MOTION, INC.Inventors: Andrew S. KRAVITZ, Matthew A. HELLER, Nathan C. MURRA, Tonya L. WYATT
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Publication number: 20220299350Abstract: An embodiment of a fin sensor is disclosed. The embodiment of the fin sensor has a base, the base coupled to a first fin and a second fin, the fin sensor further having at least two transducers coupled to the fins, the first fin being coupled to the second fin by at least one fin coupler.Type: ApplicationFiled: August 20, 2019Publication date: September 22, 2022Applicant: MICRO MOTION, INC.Inventors: Martin Andrew SCHLOSSER, Frederick Scott SCHOLLENBERGER, Joel WEINSTEIN
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Patent number: 11441496Abstract: A fuel control system (300) for fuel consumption calculation for a fuel and water mixture is provided. The fuel control system (300) includes a mixer (330), a fuel source (310) fluidly coupled to the mixer (330), the fuel source (310) being configured to measure a flow of fuel to the mixer (330), a water source (315) fluidly coupled to the mixer (330), the water source (315) being configured to measure a flow of water to the mixer (330), and a mixture flow meter (5) fluidly coupled to the mixer (330). The mixture flow meter (5) is configured to receive and measure properties of a fuel/water mixture from the mixer (330).Type: GrantFiled: June 6, 2017Date of Patent: September 13, 2022Assignee: MICRO MOTION, INC.Inventors: Christopher Douglas Hill, Patrick John Zimmer, Taylor Robert Scott
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Patent number: 11441934Abstract: A multichannel flow tube (300) for a vibratory meter (5), and a method of manufacturing the multichannel flow tube are provided. The multichannel flow tube comprises a tube perimeter wall (304), a first channel division (302b), and a first support structure (308a). The first channel division is enclosed within and coupled to the tube perimeter wall, forming a first channel (306b) and a second channel (306c). The first support structure is coupled to the tube perimeter wall and the first channel division.Type: GrantFiled: August 23, 2017Date of Patent: September 13, 2022Assignee: Micro Motion, Inc.Inventors: Mark James Bell, Joel Weinstein, Mitalee Nayan Desai, Clinton R. Griffin