Patents by Inventor Andre Scherz

Andre Scherz 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).

  • Patent number: 9931644
    Abstract: A system for automatically processing a biological specimen is provided that includes an elevator comprising a plurality of shelves configured to receive a plurality of sample trays. The trays may comprise a plurality of sample containers containing a sample and having a plurality of respective caps engaged therewith. The trays may further include a plurality of centrifuge tube racks each containing a plurality of centrifuge tubes. The system may include a first transport mechanism, a second transport mechanism and a third transport mechanism. The system may include a chain-of-custody device configured to read identifiers on each of the containers. The system may also include a pipetting device configured to remove a portion from the sample containers and dispense the sample into the centrifuge tubes.
    Type: Grant
    Filed: June 24, 2016
    Date of Patent: April 3, 2018
    Assignee: Becton, Dickinson and Company
    Inventors: Kevin Bailey, Christopher Embres, Donald Gorelick, Timothy R. Hansen, Dwight Livingston, Andre Scherz, Gerard Sevigny, Mark Talmer, Tong Zhou, Spencer Lovette
  • Publication number: 20160318040
    Abstract: A system for automatically processing a biological specimen is provided that includes an elevator comprising a plurality of shelves configured to receive a plurality of sample trays. The trays may comprise a plurality of sample containers containing a sample and having a plurality of respective caps engaged therewith. The trays may further include a plurality of centrifuge tube racks each containing a plurality of centrifuge tubes. The system may include a first transport mechanism, a second transport mechanism and a third transport mechanism. The system may include a chain-of-custody device configured to read identifiers on each of the containers. The system may also include a pipetting device configured to remove a portion from the sample containers and dispense the sample into the centrifuge tubes.
    Type: Application
    Filed: June 24, 2016
    Publication date: November 3, 2016
    Inventors: Kevin Bailey, Christopher Embres, Donald Gorelick, Timothy R. Hansen, Dwight Livingston, Andre Scherz, Gerard Sevigny, Mark Talmer, Tong Zhou, Spencer Lovette
  • Patent number: 9381524
    Abstract: A system for automatically processing a biological specimen is provided that includes an elevator comprising a plurality of shelves configured to receive a plurality of sample trays. The trays may comprise a plurality of sample containers containing a sample and having a plurality of respective caps engaged therewith. The trays may further include a plurality of centrifuge tube racks each containing a plurality of centrifuge tubes. The system may include a first transport mechanism, a second transport mechanism and a third transport mechanism. The system may include a chain-of-custody device configured to read identifiers on each of the containers. The system may also include a pipetting device configured to remove a portion from the sample containers and dispense the sample into the centrifuge tubes.
    Type: Grant
    Filed: November 8, 2012
    Date of Patent: July 5, 2016
    Assignee: Becton, Dickinson and Company
    Inventors: Kevin Bailey, Christopher Embres, Donald Gorelick, Timothy R. Hansen, Dwight Livingston, Andre Scherz, Gerard Sevigny, Mark Talmer, Tong Zhou, Spencer Lovette
  • Patent number: 7362108
    Abstract: By using techniques for near field probes to measure dielectric values of blanket films, the measure of the sidewall damage of the patterned structure is calculated. The interaction between the near field probe and the etched structure is modeled to obtain the model total capacitance. The near field microwave probe is calibrated on a set of blanket films with different thicknesses, and the dielectric constant of the etched trench structure is calculated using the measured frequency shift and calibration parameters. The measured capacitance is further calculated for the etched trench structure using the dielectric constant and the total thickness of the etched trench structure. The effective dielectric constant of the structure under study is extracted where the model capacitance is equal to the measured capacitance. The measure of the sidewall damage is further calculated using the effective dielectric constant.
    Type: Grant
    Filed: October 14, 2005
    Date of Patent: April 22, 2008
    Assignee: Solid State Measurements, Inc.
    Inventors: Vladimir V. Talanov, Andrew R. Schwartz, Andre Scherz
  • Patent number: 7285963
    Abstract: A measurement technique based on a microwave near-field scanning probe is developed for non-contact measurement of dielectric constant of low-k films. The technique is non-destructive, non-invasive and can be used on both porous and non-porous dielectrics. The technique is based on measurement of resonant frequency shift of the near-field microwave resonator for a plurality of calibration samples vs. distance between the probe tip and the sample to construct a calibration curve. Probe resonance frequency shift measured for the sample under study vs. tip-sample separation is fitted into the calibration curve to extract the dielectric constant of the sample under study. The calibration permits obtaining a linear calibration curve in order to simplify the extraction of the dielectric constant of the sample under study.
    Type: Grant
    Filed: April 8, 2005
    Date of Patent: October 23, 2007
    Assignee: Solid State Measurements, Inc.
    Inventors: Vladimir V. Talanov, Andrew R. Schwartz, Andre Scherz, Robert L. Moreland
  • Publication number: 20060087305
    Abstract: By using techniques for near field probes to measure dielectric values of blanket films, the measure of the sidewall damage of the patterned structure is calculated. The interaction between the near field probe and the etched structure is modeled to obtain the model total capacitance. The near field microwave probe is calibrated on a set of blanket films with different thicknesses, and the dielectric constant of the etched trench structure is calculated using the measured frequency shift and calibration parameters. The measured capacitance is further calculated for the etched trench structure using the dielectric constant and the total thickness of the etched trench structure. The effective dielectric constant of the structure under study is extracted where the model capacitance is equal to the measured capacitance. The measure of the sidewall damage is further calculated using the effective dielectric constant.
    Type: Application
    Filed: October 14, 2005
    Publication date: April 27, 2006
    Inventors: Vladimir Talanov, Andrew Schwartz, Andre Scherz
  • Publication number: 20050230619
    Abstract: A measurement technique based on a microwave near-field scanning probe is developed for non-contact measurement of dielectric constant of low-k films. The technique is non-destructive, non-invasive and can be used on both porous and non-porous dielectrics. The technique is based on measurement of resonant frequency shift of the near-field microwave resonator for a plurality of calibration samples vs. distance between the probe tip and the sample to construct a calibration curve. Probe resonance frequency shift measured for the sample under study vs. tip-sample separation is fitted into the calibration curve to extract the dielectric constant of the sample under study. The calibration permits obtaining a linear calibration curve in order to simplify the extraction of the dielectric constant of the sample under study.
    Type: Application
    Filed: April 8, 2005
    Publication date: October 20, 2005
    Inventors: Vladimir Talanov, Andrew Schwartz, Andre Scherz, Robert Moreland