Patents by Inventor Randall K. Riggles
Randall K. Riggles 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: 11318493Abstract: A slot die shim for use with a slot die, the slot die shim including a first channel configured to receive a first coating, a second channel configured to receive a second coating, and a third channel configured to receive a third coating. The slot die shim simultaneously dispenses the first coating through the first channel, the second coating through the second channel, and the third coating through the third channel onto a substrate. The coatings can be applied at different flow rates and include different test reagents. A vacuum force is applied to the first, second, and third coatings to control a width and a thickness of each of the coatings and a gap or distance between the coatings. The first, second, and third coatings are placed near one another or directly in contact with one another to minimize the area required for the coatings.Type: GrantFiled: April 10, 2018Date of Patent: May 3, 2022Assignee: ROCHE DIABETES CARE, INC.Inventors: Harvey B. Buck, Jr., Randall K. Riggles, Thomas D. Hahn, Mike Limbaugh, Timothy Owens
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Patent number: 10996184Abstract: A biosensor including a capillary chamber having an inner boundary, a working electrode including an effective working electrode portion positioned within the capillary chamber, and a counter electrode including an effective counter electrode portion positioned within the capillary chamber, and with the working and counter electrodes each having a neck that constitutes the sole portion of the electrodes that extends across the inner boundary and out of the capillary chamber. In one embodiment, the effective working electrode portion defines an average working electrode width, and the working electrode neck defines a working electrode neck width that is reduced relative to the average working electrode width.Type: GrantFiled: August 6, 2018Date of Patent: May 4, 2021Assignee: Roche Diabetes Care, Inc.Inventors: Randall K. Riggles, Abner D. Joseph, Scott E. Carpenter, Harvey B. Buck, Jr., Georgeta C. Lica, Terry A. Beaty
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Publication number: 20200147638Abstract: A slot die shim for use with a slot die, the slot die shim including a first channel configured to receive a first coating, a second channel configured to receive a second coating, and a third channel configured to receive a third coating. The slot die shim simultaneously dispenses the first coating through the first channel, the second coating through the second channel, and the third coating through the third channel onto a substrate. The coatings can be applied at different flow rates and include different test reagents. A vacuum force is applied to the first, second, and third coatings to control a width and a thickness of each of the coatings and a gap or distance between the coatings. The first, second, and third coatings are placed near one another or directly in contact with one another to minimize the area required for the coatings.Type: ApplicationFiled: April 10, 2018Publication date: May 14, 2020Applicant: Roche Diabetes Care, Inc.Inventors: Harvey B. Buck, JR., Randall K. Riggles, Thomas D. Hahn, Mike Limbaugh, Timothy Owens
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Publication number: 20180348159Abstract: A biosensor including a capillary chamber having an inner boundary, a working electrode including an effective working electrode portion positioned within the capillary chamber, and a counter electrode including an effective counter electrode portion positioned within the capillary chamber, and with the working and counter electrodes each having a neck that constitutes the sole portion of the electrodes that extends across the inner boundary and out of the capillary chamber. In one embodiment, the effective working electrode portion defines an average working electrode width, and the working electrode neck defines a working electrode neck width that is reduced relative to the average working electrode width.Type: ApplicationFiled: August 6, 2018Publication date: December 6, 2018Inventors: Randall K. Riggles, Abner D. Joseph, Scott E. Carpenter, Harvey B. Buck, JR., Georgeta C. Lica, Terry A. Beaty
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Patent number: 10041901Abstract: A biosensor including a capillary chamber having an inner boundary, a working electrode including an effective working electrode portion positioned within the capillary chamber, and a counter electrode including an effective counter electrode portion positioned within the capillary chamber, and with the working and counter electrodes each having a neck that constitutes the sole portion of the electrodes that extends across the inner boundary and out of the capillary chamber. In one embodiment, the effective working electrode portion defines an average working electrode width, and the working electrode neck defines a working electrode neck width that is reduced relative to the average working electrode width.Type: GrantFiled: March 15, 2013Date of Patent: August 7, 2018Assignee: Roche Diabetes Care, Inc.Inventors: Randall K. Riggles, Abner D. Joseph, Scott E. Carpenter, Harvey E. Buck, Jr., Georgeta C. Lica, Terry A. Beaty
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Publication number: 20160290951Abstract: An analyte meter, such as a blood glucose meter, uses electrochemical test strips and has a contoured strip port to improve electrochemical test strip reliability. The analyte meter has a strip connector with strip terminals that electrically connected to strip electrodes when a test strip is inserted through the strip port opening next to the strip connector. The contoured strip port is located next to the strip connector and comprises a strip shelf having side guides for aligning the test strip with the strip port, a strip port opening having a bottom opening extending from a first bottom edge to a second bottom edge, top guides located at a first top edge and a second top edge, and a contoured top extending between the top guides creating an arched clearance above the bottom opening to provide clearance for test strip electrical traces.Type: ApplicationFiled: March 31, 2015Publication date: October 6, 2016Applicant: Roche Diabetes Care, Inc.Inventors: Caleb J. Coburn, Randall K. Riggles, Matthew C. Sauers, Anthony J. Uberta, III
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Patent number: 9267911Abstract: An analyte test sensor strip is disclosed having information coded thereon as well as a method of forming the same and conducting an analyte test using the analyte test sensor strip. Information relating to an attribute of the strip or batch/lot of strips may be coded based on resistance values pertaining to electrical aspects of the strip, such as a primary resistive element and a secondary resistive element, the secondary resistive element having one of a plurality of states defined by a location of a closed tap to form a unique resistive path for the secondary resistive element that includes a portion of the primary resistive element depending on the location of the closed tap. The states may be formed on the strip by a secondary processing step in the manufacture of the strip in which a plurality of taps are severed leaving only one tap in a closed state.Type: GrantFiled: November 17, 2014Date of Patent: February 23, 2016Assignee: Roche Diabetes Care, Inc.Inventors: John T. Austera, Terry A. Beaty, Abner D. Joseph, Nathan E. Manlove, Steven K. Moore, James L. Pauley, Jr., Randall K. Riggles
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Patent number: 8992750Abstract: Embodiments of the invention include a test strip with a sample chamber opening spanning the width of the test strip at the sampling end and including a portion of the lateral sides at that end. The chamber is vertically bounded by upper and lower substrate layers, horizontally bounded by the front face of a spacer layer, and open on the remaining sides. The test strip fills rapidly and requires small sample volumes. Both 1-up and 2-up manufacturing techniques for producing such test strips eliminate registration and alignment steps, and other techniques relating to the 2-up technique (simultaneously manufacturing test strips arranged in multiple columns) are also disclosed.Type: GrantFiled: July 2, 2013Date of Patent: March 31, 2015Assignee: Roche Diagnostics Operations, Inc.Inventors: Terry A. Beaty, Eric R. Diebold, Abner D. Joseph, Randall K. Riggles
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Publication number: 20150076010Abstract: An analyte test sensor strip is disclosed having information coded thereon as well as a method of forming the same and conducting an analyte test using the analyte test sensor strip. Information relating to an attribute of the strip or batch/lot of strips may be coded based on resistance values pertaining to electrical aspects of the strip, such as a primary resistive element and a secondary resistive element, the secondary resistive element having one of a plurality of states defined by a location of a closed tap to form a unique resistive path for the secondary resistive element that includes a portion of the primary resistive element depending on the location of the closed tap. The states may be formed on the strip by a secondary processing step in the manufacture of the strip in which a plurality of taps are severed leaving only one tap in a closed state.Type: ApplicationFiled: November 17, 2014Publication date: March 19, 2015Inventors: John T. Austera, Terry A. Beaty, Abner D. Joseph, Nathan E. Manlove, Steven K. Moore, James L. Pauley, JR., Randall K. Riggles
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Patent number: 8888973Abstract: An analyte test sensor strip is disclosed having information coded thereon as well as a method of forming the same and conducting an analyte test using the analyte test sensor strip. Information relating to an attribute of the strip or batch/lot of strips may be coded based on resistance values pertaining to electrical aspects of the strip, such as a primary resistive element and a secondary resistive element, the secondary resistive element having one of a plurality of states defined by a location of a closed tap to form a unique resistive path for the secondary resistive element that includes a portion of the primary resistive element depending on the location of the closed tap. The states may be formed on the strip by a secondary processing step in the manufacture of the strip in which a plurality of taps are severed leaving only one tap in a closed state.Type: GrantFiled: July 29, 2011Date of Patent: November 18, 2014Assignee: Roche Diagnostics Operations, Inc.Inventors: John T. Austera, Terry A. Beaty, Abner D. Joseph, Nathan E. Manlove, Steven K. Moore, James L. Pauley, Jr., Randall K. Riggles
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Publication number: 20140262773Abstract: A biosensor including a capillary chamber having an inner boundary, a working electrode including an effective working electrode portion positioned within the capillary chamber, and a counter electrode including an effective counter electrode portion positioned within the capillary chamber, and with the working and counter electrodes each having a neck that constitutes the sole portion of the electrodes that extends across the inner boundary and out of the capillary chamber. In one embodiment, the effective working electrode portion defines an average working electrode width, and the working electrode neck defines a working electrode neck width that is reduced relative to the average working electrode width.Type: ApplicationFiled: March 15, 2013Publication date: September 18, 2014Applicant: Roche Diagnostics Operations, Inc.Inventors: Randall K. Riggles, Abner D. Joseph, Scott E. Carpenter, Harvey E. Buck, JR., Georgeta C. Lica, Terry A. Beaty
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Publication number: 20130027064Abstract: An analyte test sensor strip is disclosed having information coded thereon as well as a method of forming the same and conducting an analyte test using the analyte test sensor strip. Information relating to an attribute of the strip or batch/lot of strips may be coded based on resistance values pertaining to electrical aspects of the strip, such as a primary resistive element and a secondary resistive element, the secondary resistive element having one of a plurality of states defined by a location of a closed tap to form a unique resistive path for the secondary resistive element that includes a portion of the primary resistive element depending on the location of the closed tap. The states may be formed on the strip by a secondary processing step in the manufacture of the strip in which a plurality of taps are severed leaving only one tap in a closed state.Type: ApplicationFiled: July 29, 2011Publication date: January 31, 2013Applicant: ROCHE DIAGNOSTICS OPERATIONS, INC.Inventors: John T. Austera, Terry A. Beaty, Abner D. Joseph, Nathan E. Manlove, Steven K. Moore, James L. Pauley, JR., Randall K. Riggles
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Patent number: 8222044Abstract: A test strip with a sample receiving chamber having a novel flared portion that terminates in a sample receiving opening. The flared portion provides a reservoir from which sample fluid can be drawn into the capillary or sample receiving chamber. The wider opening provided by the present invention is easier to “target” with a sample fluid. In preferred embodiments, the hydrophilic reagent layer extends to the dosing end or side of the test strip and further promotes wicking of the sample into the sample receiving chamber and thus reduces dose hesitation. In other preferred embodiments, a tapered dosing end is provided on the test strip in combination with the flared portion, and this combination create a test strip that will draw sample fluid into the sample receiving chamber regardless of where along the dosing edge of the test strip the fluid sample makes contact.Type: GrantFiled: November 16, 2011Date of Patent: July 17, 2012Assignees: Roche Diagnostics Operations, Inc., Roche Operations Ltd.Inventors: Raghbir S. Bhullar, Nigel Surridge, Tom Funke, Paul Douglas Walling, Randall K. Riggles
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Publication number: 20120055626Abstract: A test strip with a sample receiving chamber having a novel flared portion that terminates in a sample receiving opening. The flared portion provides a reservoir from which sample fluid can be drawn into the capillary or sample receiving chamber. The wider opening provided by the present invention is easier to “target” with a sample fluid. In preferred embodiments, the hydrophilic reagent layer extends to the dosing end or side of the test strip and further promotes wicking of the sample into the sample receiving chamber and thus reduces dose hesitation. In other preferred embodiments, a tapered dosing end is provided on the test strip in combination with the flared portion, and this combination create a test strip that will draw sample fluid into the sample receiving chamber regardless of where along the dosing edge of the test strip the fluid sample makes contact.Type: ApplicationFiled: November 16, 2011Publication date: March 8, 2012Inventors: Raghbir S. Bhullar, Nigel Surridge, Tom Funke, Paul Douglas Walling, Randall K. Riggles
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Patent number: 8071030Abstract: A test strip with a sample receiving chamber having a novel flared portion that terminates in a sample receiving opening. The flared portion provides a reservoir from which sample fluid can be drawn into the capillary or sample receiving chamber. The wider opening provided by the present invention is easier to “target” with a sample fluid. In preferred embodiments, the hydrophilic reagent layer extends to the dosing end or side of the test strip and further promotes wicking of the sample into the sample receiving chamber and thus reduces dose hesitation. In other preferred embodiments, a tapered dosing end is provided on the test strip in combination with the flared portion, and this combination create a test strip that will draw sample fluid into the sample receiving chamber regardless of where along the dosing edge of the test strip the fluid sample makes contact.Type: GrantFiled: June 18, 2004Date of Patent: December 6, 2011Assignees: Roche Diagnostics Operations, Inc., Roche Operations Ltd.Inventors: Raghbir S. Bhullar, Nigel Surridge, Tom Funke, Paul Douglas Walling, Randall K. Riggles
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Patent number: 7556723Abstract: A test strip for measuring a signal of interest in a biological fluid when the test strip is mated to an appropriate test meter, wherein the test strip and the test meter include structures to verify the integrity of the test strip traces, to measure the parasitic resistance of the test strip traces, and to provide compensation in the voltage applied to the test strip to account for parasitic resistive losses in the test strip traces. In addition, conductive traces are positioned to ensure structural interrogation of all electrodes and traces present upon the test strip.Type: GrantFiled: January 12, 2005Date of Patent: July 7, 2009Assignees: Roche Diagnostics Operations, Inc., Roche Operations Ltd.Inventors: Tom Funke, Abner D. Joseph, Randall K. Riggles