Patents Assigned to TSI Incorporated
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Publication number: 20210241466Abstract: A particle velocimetry system and algorithm are provided for executing a particle reconstruction to determine three-dimensional positions of particles in a particle laden fluid flow from two-dimensional flow images generated by two-dimensional image sensors; generate a three-dimensional particle distribution from the three-dimensional position; and execute a Particle recursive loop for performing further iterations of particle reconstruction and generation of three-dimensional particle distributions, with recursive iterations of particle reconstruction executed with the use of particle property data obtained from the prior executed iteration of particle reconstruction.Type: ApplicationFiled: June 10, 2019Publication date: August 5, 2021Applicant: TSI INCORPORATEDInventors: Aaron BOOMSMA, Dan TROOLIN
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Patent number: 10948364Abstract: There is disclosed a handheld air flow velocity measurement probe that includes a bridge circuit assembly having an airflow velocity sensor that is a resistance temperature detector (RTD) and a digitally controlled resistive element to dynamically adjust and maintain the resistance of the velocity sensor within the overheat temperature predefined range. The velocity measurement also uses a separate temperature sensor to sense the temperature of the air or gas flow. A humidity sensor is also included remote from the other sensors to measure humidity in the gas flow to be measured. All of the above described components are housed at a probe tip instead of a base as in most standard handheld probes and the digital interface at the probe tip allows the user to replace a bulky, expensive telescoping antenna with stackable extender scheme.Type: GrantFiled: February 15, 2016Date of Patent: March 16, 2021Assignee: TSI, INCORPORATEDInventors: Frederick R. Quant, Jugal Agarwal, Siva Iyer
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Patent number: 10914667Abstract: Various embodiments include methods and systems for reducing false-particle counts in a water-based condensation particle counter (CPC). One embodiment of a method includes delivering water into multiple wicks used for transporting separate portions of an aerosol sample flow, with the wicks extending from a wick stand on a first end to a flow joiner on a second end, combining particles from the separate portions of the aerosol sample flow into a single aerosol stream within the flow joiner prior to transporting the combined aerosol sample stream into a particle detection chamber within the CPC, sensing an excess volume of water delivered to the wicks, collecting the excess volume of water in a collection reservoir, and after receiving a signal corresponding to the excess volume of water, draining the excess volume of water from the collection reservoir. Other methods, systems, and apparatuses are disclosed.Type: GrantFiled: October 25, 2019Date of Patent: February 9, 2021Assignee: TSI IncorporatedInventors: Sreenath Avula, Richard Remiarz, George John Chancellor, Tyler Anderson, Daniel C. Bjorkquist, Robert Caldow, Sean Morell, Frederick R. Quant, Susanne V. Hering, Gregory S. Lewis
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Patent number: 10866224Abstract: There is disclosed a system and apparatus for connecting remote and environmental sensors and other operating systems to a portable computing and communications device. The portable device configured to receive and process a set of data and transmit a response or message to at least the user on the quality of the data received. The portable device adapted to reconfigure the remote sensors or operating systems to produce a new set of data.Type: GrantFiled: March 22, 2018Date of Patent: December 15, 2020Assignee: TSI, IncorporatedInventors: Arndt Poecher, Gerald M. Bark, Rajagopala Menon
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Patent number: 10732082Abstract: Various embodiments include methods and systems to dilute a sampled particle-laden aerosol stream. In one embodiment, a system to dilute a sampled aerosol stream includes an aerosol sample inlet. A filter is coupled in fluid communication with and in parallel with a flow-monitoring device to receive the sampled aerosol stream from the aerosol sample inlet. The flow-monitoring device is configured to allow for a passage of particles contained in the sampled aerosol stream. A pressure sensor and a temperature sensor monitor the filter and the flow-monitoring device. An output from the filter and the flow-monitoring device may be directed to particle measurement or particle sizing instrumentation. An actual dilution ratio of the output sent to the particle measurement or particle sizing instrumentation is determined based on a nominal flowrate of the flow-monitoring device and thermodynamic properties of a gas comprising the aerosol stream. Other methods and apparatuses are disclosed.Type: GrantFiled: September 14, 2017Date of Patent: August 4, 2020Assignee: TSI IncorporatedInventors: Jason Paul Johnson, Robert Anderson, Jeremy Jens Kolb, Aaron Serafin Avenido, Robert Plautz, Steven Keith Isvik
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Publication number: 20200116534Abstract: An apparatus and method for use in determining one or more fluid flow properties of a fluid in a conduit is disclosed. The apparatus includes a substrate including a barrier, a first flow sensor coupled to the substrate and a second flow sensor coupled to the substrate. The first flow sensor is located at a first sensor distance from a first barrier surface, and the second flow sensor is located a second sensor distance from the second barrier surface. The first sensor distance is substantially equal to the second sensor distance. In operation, the first flow sensor produces a first sensor signal, and the second flow sensor produces a second sensor signal. The direction of flow for the fluid is determined by comparing the first sensor signal to the second sensor signal.Type: ApplicationFiled: October 15, 2019Publication date: April 16, 2020Applicant: TSI IncorporatedInventors: Anthony Hase, Jeremy Ames, David Castagnetta
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Patent number: 10613039Abstract: A microwave moisture sensor for agricultural materials, such as grains and nuts, is disclosed herein that includes a material sample holder having a substantially cylindrical cavity formed therein. The meter assembly further includes a transmitting antenna on a side of the sample holder and a receiving antenna on a side of sample holder directly opposite the transmitting antenna wherein the sample holder is located between the two antennas, the receiving antenna configured to receive a transmitted microwave through the sample holder.Type: GrantFiled: October 8, 2018Date of Patent: April 7, 2020Assignee: TSI, INCORPORATEDInventor: Amit Vasant Itagi
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Patent number: 10578539Abstract: Various embodiments include methods and apparatuses to reduce false-particle counts in a water-based condensation particle counter (CPC). In one embodiment, a cleanroom CPC has three parallel growth tube assemblies. A detector is coupled to an outlet of each of the three parallel growth tube assemblies, and is used to compare the particle concentrations measured from each of the three growth tube assemblies. An algorithm compares the counts from the three detectors and determines when the particles counted are real and when they are false counts. Any real particle event shows up in all three detectors, while false counts will only be detected by one detector. Statistics are used to determine at which particle count levels the measured counts are considered to be real versus false. Other methods and apparatuses are disclosed.Type: GrantFiled: March 31, 2017Date of Patent: March 3, 2020Assignee: TSI IncorporatedInventors: Richard Remiarz, Kenneth Farmer
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Patent number: 10520414Abstract: Various embodiments include methods of reducing false-particle counts in a water-based condensation particle counter (CPC). One embodiment of a method includes delivering water into one or more wicks, sensing an excess volume of water delivered to the wicks, collecting the excess volume of water into a collection reservoir, and draining the excess volume of water from the collection reservoir. Other methods and apparatuses are disclosed.Type: GrantFiled: February 23, 2016Date of Patent: December 31, 2019Assignee: TSI IncorporatedInventors: Sreenath Avula, Richard Remiarz, George John Chancellor, Tyler Anderson, Daniel C. Bjorkquist, Robert Caldow, Sean Morell, Frederick R. Quant, Susanne V. Hering, Gregory S. Lewis
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Patent number: 10488314Abstract: Various embodiments include methods of reducing false-particle counts in a water-based condensation particle counter (CPC). One embodiment of a method includes delivering water into one or more wicks, sensing an excess volume of water delivered to the wicks, collecting the excess volume of water into a collection reservoir, and draining the excess volume of water from the collection reservoir. Other methods and apparatuses are disclosed.Type: GrantFiled: February 23, 2016Date of Patent: November 26, 2019Assignee: TSI IncorporatedInventors: Sreenath Avula, Richard Remiarz, George John Chancellor, Tyler Anderson, Daniel C. Bjorkquist, Robert Caldow, Sean Morell, Frederick R. Quant, Susanne V. Hering, Gregory S. Lewis
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Patent number: 10412880Abstract: In one example embodiment, a seed sensor is disclosed adapted to fit a conventional mounting location in existing seed tubes that provides improved performance by providing a wide light source (more LEDS), a wide photodetector and a current profiling scheme for the LEDs that provides more light at the opposite ends of the LED array. A result of such an arrangement is to improve seed resolution and to reduce seed spatial variability within the seed tube.Type: GrantFiled: March 12, 2018Date of Patent: September 17, 2019Assignee: TSI, INCORPORATEDInventors: Ronald W. Steffen, Dahu Qi, Gregry C. Miller
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Patent number: 10101258Abstract: A novel filter effectiveness detection method for AMCs (Airborne Molecular Contaminations) is provided herein, which is on-line, economical and applicable for diverse AMCs, using gas-to-particle conversion with soft X-ray irradiation radiation. In one embodiment, this method was conducted through AMC filter evaluations comparing two granular activated carbons (GACs), which are widely used AMC filter media, challenged with sulfur dioxide (SO2), which is one of the major known AMCs in cleanrooms. Using this method, the concentration of gaseous SO2 was assessed in terms of particle volume concentrations after the gas-to-particle conversion assisted by the soft X-ray irradiation. The results of this detection method showed high sensitivity to SO2, down to parts per trillion-levels, which are levels that are too low to be detectable by currently available commercial gas sensors.Type: GrantFiled: August 27, 2015Date of Patent: October 16, 2018Assignee: TSI, IncorporatedInventors: Stanley L. Kaufman, David Y. H. Pui, Chang Hyuk Kim
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Patent number: 10094789Abstract: A microwave moisture sensor for agricultural materials, such as grains and nuts, is disclosed herein that includes a material sample holder having a substantially cylindrical cavity formed therein. The meter assembly further includes a transmitting antenna on a side of the sample holder and a receiving antenna on a side of sample holder directly opposite the transmitting antenna wherein the sample holder is located between the two antennas, the receiving antenna configured to receive a transmitted microwave through the sample holder.Type: GrantFiled: August 12, 2015Date of Patent: October 9, 2018Assignee: TSI, IncorporatedInventor: Amit Vasant Itagi
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Patent number: 10088425Abstract: A LIBS measurement system is described herein that provides an orifice, aperture or opening in a substantially V-shaped chute or sleeve that allows access to the material to be analyzed from the underside of the chute. The laser beam is aimed through the hole and return light (signal) is collected through the hole by a photodetector assembly. A diverter device, which is located at an output end of the chute, diverts certain particles away from the chute upon receipt of an actuation signal.Type: GrantFiled: June 19, 2015Date of Patent: October 2, 2018Assignee: TSI, IncorporatedInventors: Steven G. Buckley, Darrick L. Niccum
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Patent number: 10041862Abstract: There is disclosed a field calibratable particle sensor solution in a low-cost, very compact form factor. This makes a low-cost sensor more accurate for low-concentration pollution measurements and decreases the cost of pollution measurement systems having a wide geographic coverage. In a related embodiment, the invention illustrates a method and system to remotely and automatically calibrate one or more of the low cost sensors disclosed herein as well as other commercially available sensors (such as optical particle counters, photometers etc.) against a reference instrument (such as a beta attenuation monitor) which may or may not be physically located in the same place as the individual sensors. The method may require minimum (or no) user interaction and the calibration period is adjustable periodically.Type: GrantFiled: July 27, 2017Date of Patent: August 7, 2018Assignee: TSI, IncorporatedInventors: Hee-Siew Han, James E. Farnsworth, Robert Caldow
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Patent number: 10006871Abstract: Methods and apparatuses for the removal, analysis and/or detection of harmful airborne molecular contaminants (AMCs). In one embodiment, an ionizing radiation source is utilized to remove the harmful AMCs from a flow stream via radiolytic particle generation and subsequent capture by filtration. The captured particles may be released, for example, by re-gasification for analysis at much higher concentrations. In another embodiment, the ionizing radiation source is utilized with a particle detector to sense when harmful AMCs are present. In one embodiment, a solid optical medium is exposed to a monitored environment so that the AMCs are in contact with a surface of the solid optical medium. A focused light beam is arranged to emerge from a solid optical medium at an energy density sufficient to cause the AMCs to form deposits on the exposed surface of the solid optical medium, which can be detected using an interferometric technique.Type: GrantFiled: September 21, 2011Date of Patent: June 26, 2018Assignee: TSI, IncorporatedInventor: Stanley L. Kaufman
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Patent number: 9933401Abstract: There is disclosed a system and apparatus for connecting remote and environmental sensors and other operating systems to a portable computing and communications device. The portable device configured to receive and process a set of data and transmit a response or message to at least the user on the quality of the data received. The portable device adapted to reconfigure the remote sensors or operating systems to produce a new set of data.Type: GrantFiled: October 19, 2011Date of Patent: April 3, 2018Assignee: TSI, IncorporatedInventors: Arndt Poecher, Gerald M. Bark, Rajagopala Menon
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Patent number: 9925547Abstract: The electrospray generator system described herein uses a soft X-ray source instead of a radioactive source to generate bipolar ions for the neutralization of the initially charged particles. In one example, the soft X-ray source is directed at an orifice from which the charged particles emanate, thereby allowing the neutralization of the particles to happen faster than in prior art configurations and, in some instances, even neutralization occurring immediately on a droplet before it passes through the electrospray orifice.Type: GrantFiled: August 26, 2015Date of Patent: March 27, 2018Assignee: TSI, IncorporatedInventors: Jacob Hackbarth Scheckman, Frederick Quant, Tony Hase
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Patent number: 9913425Abstract: In one example embodiment, a seed sensor is disclosed adapted to fit a conventional mounting location in existing seed tubes that provides improved performance by providing a wide light source (more LEDS), a wide photodetector and a current profiling scheme for the LEDs that provides more light at the opposite ends of the LED array. A result of such an arrangement is to improve seed resolution and to reduce seed spatial variability within the seed tube.Type: GrantFiled: August 27, 2013Date of Patent: March 13, 2018Assignee: TSI, IncorporatedInventors: Ronald W. Steffen, Dahu Qi, Gregry C. Miller
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Patent number: 9891154Abstract: A system and a method of measuring a particle's size in a select aerosol using the optical diameter of the particle to perform a mobility and/or aerodynamic diameter conversion without any knowledge about the particle's shape and its optical properties in the aerosol being characterized. In one example embodiment of the invention, the method includes generating a set of calibration data and finding the optimal refractive index and shape that best fits the calibration data. In addition, the method includes creating a new calibration curve that provides a mobility-equivalent or aerodynamic-equivalent diameter.Type: GrantFiled: March 31, 2016Date of Patent: February 13, 2018Assignee: TSI, INCORPORATEDInventor: Hee-Siew Han