Patents by Inventor Charles Robinson
Charles Robinson 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: 20240285853Abstract: An example device for detecting intravenous (IV) infiltration by identifying leaks and swelling at the patient skin. The device uses skin swelling to displace alignment of overlapping layers to produce a pattern or indication of swelling. Leakage is detected through the use of a conduit to wick liquid away from an insertion site and react with a dye or reagent to produce a color change that makes a clear visible indication of leaking. The detection methods provide visible markers without occluding visibility of the insertion site for the IV therapy.Type: ApplicationFiled: May 27, 2022Publication date: August 29, 2024Applicants: University of Washington, Seattle Children’s Research Hospital (DBA Seattle Children’s Research Institute)Inventors: Krystle PEREZ, Elena M. BOSQUE, Sienna RICE, Gregory Charles VALENTINE, Eric J. SEIBEL, Leonard Y. NELSON, Jung Woong Samuel SEO, Benneth SALANGA, Kathleen KEARNEY, Liam BURK, Timothy Rex ROBINSON
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Patent number: 11668807Abstract: A sensor system is disclosed for sensing the position of an object. The system can include a power source and a nullification circuit electrically connected to the power source, the nullification circuit including an output voltage. An electrical medium can be integrated into the nullification circuit, the electrical medium producing a standing wave electric field about the electrical medium when power is supplied from the power source to the electrical medium. The nullification circuit is configured such that the output voltage of the nullification circuit is substantially zero when power is supplied to the electrical medium and the object is not within a predetermined minimum distance from the electrical medium, the output voltage of the nullification circuit having a non-zero value when the object is within the predetermined minimum distance from the electrical medium.Type: GrantFiled: June 10, 2022Date of Patent: June 6, 2023Assignee: Tennessee Technological UniversityInventors: Charles W. VanNeste, Charles A. Robinson, Brandon J. Childress
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Patent number: 11624775Abstract: Systems and methods for semiconductor defect-guided burn-in and system level tests (SLT) are configured to receive a plurality of inline defect part average testing (I-PAT) scores from an inline defect part average testing (I-PAT) subsystem, where the plurality of I-PAT scores is generated by the I-PAT subsystem based on semiconductor die data for a plurality of semiconductor dies, where the semiconductor die data includes characterization measurements for the plurality of semiconductor dies, where each I-PAT score of the plurality of I-PAT scores represents a defectivity determined by the I-PAT subsystem based on a characterization measurement of a corresponding semiconductor die of the plurality of semiconductor dies; apply one or more rules to the plurality of I-PAT scores during a dynamic decision-making process; and generate one or more defect-guided dispositions for at least one semiconductor die of the plurality of semiconductor dies based on the dynamic decision-making process.Type: GrantFiled: July 9, 2021Date of Patent: April 11, 2023Assignee: KLA CorporationInventors: Robert J. Rathert, David W. Price, Chet V. Lenox, Oreste Donzella, John Charles Robinson
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Patent number: 11614480Abstract: A system and method for Z-PAT defect-guided statistical outlier detection of semiconductor reliability failures includes receiving electrical test bin data with semiconductor die data for a plurality of wafers in a lot generated by a statistical outlier detection subsystem configured to perform Z-direction Part Average Testing (Z-PAT) on test data generated by an electrical test subsystem after fabrication of the plurality of wafers in the lot, receiving characterization data for the plurality of wafers in the lot generated by a semiconductor fab characterization subsystem during the fabrication of the plurality of wafers in the lot, determining a statistical correlation between the electrical test bin data and the characterization data at a same x, y position on each of the plurality of wafers in the lot, and locating defect data signatures on the plurality of wafers in the lot based on the statistical correlation.Type: GrantFiled: June 30, 2021Date of Patent: March 28, 2023Assignee: KLA CorporationInventors: David W. Price, Robert J. Rathert, Chet V. Lenox, Oreste Donzella, John Charles Robinson
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Publication number: 20220390505Abstract: Systems and methods for semiconductor defect-guided burn-in and system level tests (SLT) are configured to receive a plurality of inline defect part average testing (I-PAT) scores from an inline defect part average testing (I-PAT) subsystem, where the plurality of I-PAT scores is generated by the I-PAT subsystem based on semiconductor die data for a plurality of semiconductor dies, where the semiconductor die data includes characterization measurements for the plurality of semiconductor dies, where each I-PAT score of the plurality of I-PAT scores represents a defectivity determined by the I-PAT subsystem based on a characterization measurement of a corresponding semiconductor die of the plurality of semiconductor dies; apply one or more rules to the plurality of I-PAT scores during a dynamic decision-making process; and generate one or more defect-guided dispositions for at least one semiconductor die of the plurality of semiconductor dies based on the dynamic decision-making process.Type: ApplicationFiled: July 9, 2021Publication date: December 8, 2022Inventors: Robert J. Rathert, David W. Price, Chet V. Lenox, Oreste Donzella, John Charles Robinson
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Publication number: 20220390506Abstract: A system and method for Z-PAT defect-guided statistical outlier detection of semiconductor reliability failures includes receiving electrical test bin data with semiconductor die data for a plurality of wafers in a lot generated by a statistical outlier detection subsystem configured to perform Z-direction Part Average Testing (Z-PAT) on test data generated by an electrical test subsystem after fabrication of the plurality of wafers in the lot, receiving characterization data for the plurality of wafers in the lot generated by a semiconductor fab characterization subsystem during the fabrication of the plurality of wafers in the lot, determining a statistical correlation between the electrical test bin data and the characterization data at a same x, y position on each of the plurality of wafers in the lot, and locating defect data signatures on the plurality of wafers in the lot based on the statistical correlation.Type: ApplicationFiled: June 30, 2021Publication date: December 8, 2022Inventors: David W. Price, Robert J. Rathert, Chet V. Lenox, Oreste Donzella, John Charles Robinson
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Publication number: 20220307990Abstract: A die screening system may receive die-resolved metrology data for a population of dies on one or more samples from the one or more in-line metrology tools after one or more fabrication steps, where the die-resolved metrology data includes images generated using one or more measurement configurations of the one or more in-line metrology tools. In this way, the die-resolved metrology data provides many measurement channels per die, where a particular measurement channel includes data from a particular pixel of a particular image. The controller may then generate screening data for the population of dies from the die-resolved metrology data, where the screening data includes a subset of the plurality of measurement channels of the die-resolved metrology data, and screen the plurality of dies into two or more disposition classes including at least outlier dies based on variability in the screening data.Type: ApplicationFiled: June 4, 2021Publication date: September 29, 2022Inventors: John Charles Robinson, Stilian Pandev, Shifang Li, Mike Von Den Hoff, Justin Lach, Barry Saville, David W. Price, Robert J. Rathert, Chet V. Lenox, Thomas Groos, Oreste Donzella
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Publication number: 20220299618Abstract: A sensor system is disclosed for sensing the position of an object. The system can include a power source and a nullification circuit electrically connected to the power source, the nullification circuit including an output voltage. An electrical medium can be integrated into the nullification circuit, the electrical medium producing a standing wave electric field about the electrical medium when power is supplied from the power source to the electrical medium. The nullification circuit is configured such that the output voltage of the nullification circuit is substantially zero when power is supplied to the electrical medium and the object is not within a predetermined minimum distance from the electrical medium, the output voltage of the nullification circuit having a non-zero value when the object is within the predetermined minimum distance from the electrical medium.Type: ApplicationFiled: June 10, 2022Publication date: September 22, 2022Inventors: Charles W. VanNeste, Charles A. Robinson, Brandon J. Childress
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Patent number: 11360200Abstract: A sensor system is disclosed for sensing the position of an object. The system can include a power source and a nullification circuit electrically connected to the power source, the nullification circuit including an output voltage. An electrical medium can be integrated into the nullification circuit, the electrical medium producing a standing wave electric field about the electrical medium when power is supplied from the power source to the electrical medium. The nullification circuit is configured such that the output voltage of the nullification circuit is substantially zero when power is supplied to the electrical medium and the object is not within a predetermined minimum distance from the electrical medium, the output voltage of the nullification circuit having a non-zero value when the object is within the predetermined minimum distance from the electrical medium.Type: GrantFiled: April 2, 2020Date of Patent: June 14, 2022Assignee: Tennessee Technological UniversityInventors: Charles W. VanNeste, Charles A. Robinson, Brandon J. Childress
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Patent number: 11293970Abstract: An inspection system may include a controller communicatively coupled to one or more in-line sample analysis tools including, but not limited to, an inspection tool or a metrology tool. The controller may identify defects in a population of dies based on data received from at least one of the one or more in-line sample analysis tools, assign weights to the identified defects indicative of predicted impact of the identified defects on reliability of the dies using a weighted defectivity model, generate defectivity scores for the dies in the population by aggregating the weighted defects in the respective dies in the population, and determine a set of outlier dies based on the defectivity scores for the dies in the population, wherein at least some of the set of outlier dies are isolated from the population.Type: GrantFiled: November 23, 2020Date of Patent: April 5, 2022Assignee: KLA CorporationInventors: David W. Price, Robert J. Rathert, Kara L. Sherman, John Charles Robinson, Mike Von Den Hoff, Barry Saville, Robert Cappel, Oreste Donzella, Naema Bhatti, Thomas Groos, Teng-Song Lim, Doug Sutherland
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Publication number: 20210215753Abstract: An inspection system may include a controller communicatively coupled to one or more in-line sample analysis tools including, but not limited to, an inspection tool or a metrology tool. The controller may identify defects in a population of dies based on data received from at least one of the one or more in-line sample analysis tools, assign weights to the identified defects indicative of predicted impact of the identified defects on reliability of the dies using a weighted defectivity model, generate defectivity scores for the dies in the population by aggregating the weighted defects in the respective dies in the population, and determine a set of outlier dies based on the defectivity scores for the dies in the population, wherein at least some of the set of outlier dies are isolated from the population.Type: ApplicationFiled: November 23, 2020Publication date: July 15, 2021Applicant: KLA CorporationInventors: David W. Price, Robert J. Rathert, Kara L. Sherman, John Charles Robinson, Mike Von Den Hoff, Barry Saville, Robert Cappel, Oreste Donzella, Naema Bhatti, Thomas Groos, Teng-Song Lim, Doug Sutherland
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Publication number: 20200319323Abstract: A sensor system is disclosed for sensing the position of an object. The system can include a power source and a nullification circuit electrically connected to the power source, the nullification circuit including an output voltage. An electrical medium can be integrated into the nullification circuit, the electrical medium producing a standing wave electric field about the electrical medium when power is supplied from the power source to the electrical medium. The nullification circuit is configured such that the output voltage of the nullification circuit is substantially zero when power is supplied to the electrical medium and the object is not within a predetermined minimum distance from the electrical medium, the output voltage of the nullification circuit having a non-zero value when the object is within the predetermined minimum distance from the electrical medium.Type: ApplicationFiled: April 2, 2020Publication date: October 8, 2020Inventors: Charles W. VanNeste, Charles A. Robinson, Brandon J. Childress
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Patent number: 10466596Abstract: The present disclosure is directed to a method of determining at least one correctable for a process tool. In an embodiment, the method includes the steps of: measuring one or more parameter values at one or more measurement locations of each field of a selection of measured fields of a wafer; estimating one or more parameter values for one or more locations of each field of a selection of unmeasured fields of the wafer; and determining at least one correctable for a process tool based upon the one or more parameter values measured at the one or more measurement locations of each field of the selection of measured fields of the wafer and the one or more parameter values estimated for the one or more locations of each field of the selection of unmeasured fields of the wafer.Type: GrantFiled: February 21, 2014Date of Patent: November 5, 2019Assignee: KLA-Tencor CorporationInventors: Bill Pierson, Ramkumar Karur-Shanmugam, Chin-Chou Huang, Ady Levy, John Charles Robinson
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Patent number: 10409171Abstract: A process control system may include a controller configured to receive after-development inspection (ADI) data after a lithography step for the current layer from an ADI tool, receive after etch inspection (AEI) overlay data after an exposure step of the current layer from an AEI tool, train a non-zero offset predictor with ADI data and AEI overlay data to predict a non-zero offset from input ADI data, generate values of the control parameters of the lithography tool using ADI data and non-zero offsets generated by the non-zero offset predictor, and provide the values of the control parameters to the lithography tool for fabricating the current layer on the at least one production sample.Type: GrantFiled: January 10, 2018Date of Patent: September 10, 2019Assignee: KLA-Tencor CorporationInventors: Michael E. Adel, Amnon Manassen, William Pierson, Ady Levy, Pradeep Subrahmanyan, Liran Yerushalmi, DongSub Choi, Hoyoung Heo, Dror Alumot, John Charles Robinson
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Publication number: 20190002337Abstract: An apparatus can include a ceramic component, a metal component, and a glass sealing material that bonds the ceramic and metal components to each other. In an embodiment, the coefficients of thermal expansion of the components and glass sealing material can be within 4 ppm/° C. of one another. The metal component may be relatively oxidation resistant. The glass sealing material may have a relatively low amount of an amorphous phase as compared to one or more crystalline phases within the glass sealing material. The apparatuses can exhibit good bond strength even after long term exposure to high temperature, thermal cycling to a high temperature, or both. In an embodiment, the metal component may allow another metal component of a different composition to be used without a significant impact on the integrity of the bonded apparatus.Type: ApplicationFiled: December 20, 2016Publication date: January 3, 2019Inventors: Sean M. Kelly, Charles Robinson, Javier E. Gonzalez, Lawrence W. Kosowski, David A. Rich, Brian C. LaCourse, Signo T. Reis
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Publication number: 20180253017Abstract: A process control system may include a controller configured to receive after-development inspection (ADI) data after a lithography step for the current layer from an ADI tool, receive after etch inspection (AEI) overlay data after an exposure step of the current layer from an AEI tool, train a non-zero offset predictor with ADI data and AEI overlay data to predict a non-zero offset from input ADI data, generate values of the control parameters of the lithography tool using ADI data and non-zero offsets generated by the non-zero offset predictor, and provide the values of the control parameters to the lithography tool for fabricating the current layer on the at least one production sample.Type: ApplicationFiled: January 10, 2018Publication date: September 6, 2018Inventors: Michael E. Adel, Amnon Manassen, William Pierson, Ady Levy, Pradeep Subrahmanyan, Liran Yerushalmi, DongSub Choi, Hoyoung Heo, Dror Alumot, John Charles Robinson
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Patent number: 9776153Abstract: The invention relates to a commercially viable modular ceramic oxygen transport membrane system for utilizing heat generated in reactively-driven oxygen transport membrane tubes to generate steam, heat process fluid and/or provide energy to carry out endothermic chemical reactions. The system provides for improved thermal coupling of oxygen transport membrane tubes to steam generation tubes or process heater tubes or reactor tubes for efficient and effective radiant heat transfer.Type: GrantFiled: October 7, 2014Date of Patent: October 3, 2017Assignee: PRAXAIR TECHNOLOGY, INC.Inventors: Sean M. Kelly, Gervase Maxwell Christie, Charles Robinson, Jamie R. Wilson, Javier E. Gonzalez, Uttam R. Doraswami
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Patent number: 9486765Abstract: The invention relates to a commercially viable modular ceramic oxygen transport membrane reforming reactor configured using repeating assemblies of oxygen transport membrane tubes and catalytic reforming reactors.Type: GrantFiled: October 7, 2014Date of Patent: November 8, 2016Assignee: PRAXAIR TECHNOLOGY, INC.Inventors: Sean M. Kelly, Gervase Maxwell Christie, Charles Robinson, Jamie R. Wilson, Javier E. Gonzalez, Uttam R. Doraswami
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Patent number: 9452401Abstract: A commercially viable modular ceramic oxygen transport membrane reforming reactor for producing a synthesis gas that improves the thermal coupling of reactively-driven oxygen transport membrane tubes and catalyst reforming tubes required to efficiently and effectively produce synthesis gas.Type: GrantFiled: October 7, 2014Date of Patent: September 27, 2016Assignee: PRAXAIR TECHNOLOGY, INC.Inventors: Sean M. Kelly, Gervase Maxwell Christie, Lee J. Rosen, Charles Robinson, Jamie R. Wilson, Javier E. Gonzalez, Uttam R. Doraswami
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Patent number: D871021Type: GrantFiled: September 13, 2016Date of Patent: December 31, 2019Inventor: Charles Robinson