Patents by Inventor Ryan J. Staab
Ryan J. Staab 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: 10274383Abstract: A zero-heat-flux, deep tissue temperature measurement system measures internal body temperature by way of a probe having a heater and thermal sensors arranged in a zero-heat-flux construction. The measurement system includes control mechanization that determines heater and skin temperatures based upon data obtained from the probe and uses those temperatures to calculate a deep tissue temperature. The measurement system includes a signal interface cable having a connector where a probe can be releasably connected to the system. The cable and attached connector are a removable and replaceable part of the system, separate from the probe. The measurement system provides an output signal imitating a standard input signal configuration used by other equipment.Type: GrantFiled: April 28, 2016Date of Patent: April 30, 2019Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Mark T. Bieberich, Philip G. Dion, Gary L. Hansen, David R. Palchak, Timothy J. Prachar, Ryan J. Staab, Albert P. Van Duren, Elecia White, Allen H. Ziaimehr
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Publication number: 20160238463Abstract: A zero-heat-flux, deep tissue temperature measurement system measures internal body temperature by way of a probe having a heater and thermal sensors arranged in a zero-heat-flux construction. The measurement system includes control mechanization that determines heater and skin temperatures based upon data obtained from the probe and uses those temperatures to calculate a deep tissue temperature. The measurement system includes a signal interface cable having a connector where a probe can be releasably connected to the system. The cable and attached connector are a removable and replaceable part of the system, separate from the probe. The measurement system provides an output signal imitating a standard input signal configuration used by other equipment.Type: ApplicationFiled: April 28, 2016Publication date: August 18, 2016Inventors: Mark T. Bieberich, Philip G. Dion, Gary L. Hansen, David R. Palchak, Timothy J. Prachar, Ryan J. Staab, Albert P. Van Duren, Elecia White, Allen H. Ziaimehr
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Patent number: 9354122Abstract: A zero-heat-flux, deep tissue temperature measurement system measures internal body temperature by way of a probe having a heater and thermal sensors arranged in a zero-heat-flux construction. The measurement system includes control mechanization that determines heater and skin temperatures based upon data obtained from the probe and uses those temperatures to calculate a deep tissue temperature. The measurement system includes a signal interface cable having a connector where a probe can be releasably connected to the system. The cable and attached connector are a removable and replaceable part of the system, separate from the probe. The measurement system provides an output signal imitating a standard input signal configuration used by other equipment.Type: GrantFiled: November 17, 2011Date of Patent: May 31, 2016Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Mark T. Bieberich, Philip G. Dion, Gary L. Hansen, David R. Palchak, Timothy J. Prachar, Ryan J. Staab, Albert P. Van Duren, Elecia White, Allen H. Ziaimehr
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Patent number: 8801282Abstract: The invention pertains to flexible devices used for zero-heat-flux, deep tissue temperature measurement, especially to disposable temperature measurement devices. Such a device is constituted of a flexible substrate. An electrical circuit is disposed on a side of the substrate. The electrical circuit includes first and second thermal sensors disposed, respectively, on first and second substrate layers. A heater trace is disposed on the first substrate layer with the first thermal sensor. The first and second substrate layers are separated by a flexible layer of insulation disposed between the first and second substrate layers. The heater trace defines a heater with a central portion that operates with a first power density and a peripheral portion around the central portion that operates with a second power density greater than the first power density.Type: GrantFiled: September 13, 2012Date of Patent: August 12, 2014Assignee: 3M Innovative Properties CompanyInventors: Mark T. Bieberich, Gary L. Hansen, Ryan J. Staab, Albert P. Van Duren, Allen H. Ziaimehr
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Patent number: 8801272Abstract: A zero-heat-flux DTT measurement device is constituted of a flexible substrate supporting an electrical circuit including a heater trace defining a heater, thermal sensors, and a thermal sensor calibration circuit.Type: GrantFiled: September 13, 2012Date of Patent: August 12, 2014Assignee: 3M Innovative Properties CompanyInventors: Mark T. Bieberich, Gary L. Hansen, Ryan J. Staab, Albert P. Van Duren, Allen H. Ziaimehr
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Publication number: 20130010828Abstract: The invention pertains to flexible devices used for zero-heat-flux, deep tissue temperature measurement, especially to disposable temperature measurement devices. Such a device is constituted of a flexible substrate. An electrical circuit is disposed on a side of the substrate. The electrical circuit includes first and second thermal sensors disposed, respectively, on first and second substrate layers. A heater trace is disposed on the first substrate layer with the first thermal sensor. The first and second substrate layers are separated by a flexible layer of insulation disposed between the first and second substrate layers. The heater trace defines a heater with a central portion that operates with a first power density and a peripheral portion around the central portion that operates with a second power density greater than the first power density.Type: ApplicationFiled: September 13, 2012Publication date: January 10, 2013Applicant: Arizant Healthcare Inc.Inventors: Mark T. Bieberich, Gary L. Hansen, Ryan J. Staab, Albert P. Van Duren, Allen H. Ziaimehr
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Publication number: 20130003776Abstract: A zero-heat-flux DTT measurement device is constituted of a flexible substrate supporting an electrical circuit including a heater trace defining a heater, thermal sensors, and a thermal sensor calibration circuit.Type: ApplicationFiled: September 13, 2012Publication date: January 3, 2013Applicant: Arizant Healthcare Inc.Inventors: Mark T. Bieberich, Gary L. Hansen, Ryan J. Staab, Albert P. Van Duren, Allen H. Ziaimehr
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Publication number: 20120289855Abstract: A zero-heat-flux, deep tissue temperature measurement system measures internal body temperature by way of a probe having a heater and thermal sensors arranged in a zero-heat-flux construction. The measurement system includes control mechanization that determines heater and skin temperatures based upon data obtained from the probe and uses those temperatures to calculate a deep tissue temperature. The measurement system includes a signal interface cable having a connector where a probe can be releasably connected to the system. The cable and attached connector are a removable and replaceable part of the system, separate from the probe. The measurement system provides an output signal imitating a standard input signal configuration used by other equipment.Type: ApplicationFiled: November 17, 2011Publication date: November 15, 2012Applicant: Arizant Healthcare Inc.Inventors: Mark T. Bieberich, Phillip G. Dion, Gary L. Hansen, David R. Palchak, Timothy J. Prachar, Ryan J. Staab, Albert P. Van Duren, Elecia White, Allen H. Ziaimehr
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Patent number: 8292502Abstract: The invention pertains to flexible devices used for zero-heat-flux, deep tissue temperature measurement, especially to disposable temperature measurement devices. Such a device is constituted of a flexible substrate. An electrical circuit is disposed on a side of the substrate. The electrical circuit includes first and second thermal sensors disposed, respectively, on first and second substrate layers. A heater trace is disposed on the first substrate layer with the first thermal sensor. The first and second substrate layers are separated by a flexible layer of insulation disposed between the first and second substrate layers. The heater trace defines a heater with a central portion that operates with a first power density and a peripheral portion around the central portion that operates with a second power density greater than the first power density.Type: GrantFiled: April 7, 2010Date of Patent: October 23, 2012Assignee: Arizant Healthcare Inc.Inventors: Mark T. Bieberich, Gary L. Hansen, Ryan J. Staab, Albert P. Van Duren, Allen H. Ziaimehr
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Patent number: 8292495Abstract: A zero-heat-flux DTT measurement device is constituted of a flexible substrate supporting an electrical circuit including a heater trace defining a heater, thermal sensors, and a thermal sensor calibration circuit.Type: GrantFiled: April 7, 2010Date of Patent: October 23, 2012Assignee: Arizant Healthcare Inc.Inventors: Mark T. Bieberich, Gary L. Hansen, Ryan J. Staab, Albert P. Van Duren, Allen H. Ziaimehr
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Publication number: 20110249699Abstract: A zero-heat-flux DTT measurement device is constituted of a flexible substrate supporting an electrical circuit including a heater trace defining a heater, thermal sensors, and a thermal sensor calibration circuit.Type: ApplicationFiled: April 7, 2010Publication date: October 13, 2011Applicant: Arizant Healthcare Inc.Inventors: Mark T. Bieberich, Gary L. Hansen, Ryan J. Staab, Albert P. Van Duren, Allen H. Ziaimehr
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Publication number: 20110249701Abstract: The invention pertains to flexible devices used for zero-heat-flux, deep tissue temperature measurement, especially to disposable temperature measurement devices. Such a device is constituted of a flexible substrate. An electrical circuit is disposed on a side of the substrate. The electrical circuit includes first and second thermal sensors disposed, respectively, on first and second substrate layers. A heater trace is disposed on the first substrate layer with the first thermal sensor. The first and second substrate layers are separated by a flexible layer of insulation disposed between the first and second substrate layers. The heater trace defines a heater with a central portion that operates with a first power density and a peripheral portion around the central portion that operates with a second power density greater than the first power density.Type: ApplicationFiled: April 7, 2010Publication date: October 13, 2011Applicant: Arizant Healthcare Inc.Inventors: Mark T. Bieberich, Gary L. Hansen, Ryan J. Staab, Albert P. Van Duren, Allen H. Ziaimehr