Patents by Inventor Jaquelin K. Spong
Jaquelin K. Spong 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: 10955336Abstract: Systems and methods for forming a compact gas sensor include a multilayer etalon as a wavelength discriminating element. The position of the etalon may be adjusted to tune its transmission profile. And embodiment directed to carbon dioxide detection is described.Type: GrantFiled: August 20, 2018Date of Patent: March 23, 2021Assignee: Innovative Micro TechnologyInventors: Christopher S. Gudeman, Jaquelin K. Spong
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Publication number: 20190064060Abstract: Systems and methods for forming a compact gas sensor include a multilayer etalon as a wavelength discriminating element. The position of the etalon may be adjusted to tune its transmission profile. And embodiment directed to carbon dioxide detection is described.Type: ApplicationFiled: August 20, 2018Publication date: February 28, 2019Applicant: Innovative Micro TechnologyInventors: Christopher S. GUDEMAN, Jaquelin K. SPONG
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Patent number: 9372185Abstract: A MEMS-based system and a method are described for separating a target particle from the remainder of a fluid stream. The system makes use of a unique, microfabricated movable structure formed on a substrate, which moves in a rotary fashion about one or more fixed points, which are all located on one side of the axis of motion. The movable structure is actuated by a separate force-generating apparatus, which is entirely separate from the movable structure formed on its substrate. This allows the movable structure to be entirely submerged in the sample fluid.Type: GrantFiled: July 29, 2013Date of Patent: June 21, 2016Assignees: Owl Biomedical, Inc., Innovative Micro TechnologyInventors: John S Foster, Daryl W. Grummitt, Jaquelin K. Spong, Kimberley L. Turner, John C. Harley
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Patent number: 9360164Abstract: A MEMS-based particle manipulation system which uses a particle manipulation stage and a sensor to detect when the sample volume is exhausted or nearly exhausted. The sensor sends a signal to a fluid control means that reverses the pressure between one of the output channels and the input channels, to keep the surfaces wet with a volume of the sample fluid. This volume can be maintained in the channel until an operator intervenes, or it can be repeatedly shuttled back and forth between the input channel and an output channel. By keeping the channels wet, material from the sample stream does not become adhered to the channel walls, which might otherwise irreversibly change or damage the device.Type: GrantFiled: January 29, 2014Date of Patent: June 7, 2016Assignee: Owl biomedical, Inc.Inventors: John S Foster, Nicholas C. Martinez, Kevin E. Shields, Jaquelin K. Spong
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Patent number: 9168568Abstract: A MEMS-based particle manipulation system which uses a particle manipulation stage and a plurality of laser interrogation regions. The laser interrogation regions may be used to assess the effectiveness or accuracy of the particle manipulation stage. In one exemplary embodiment, the particle manipulation stage is a microfabricated valve, which sorts a target particle from non-target particles in a fluid stream. The laser interrogation stages are disposed in the microfabricated fluid channels at the input and output of the valve. By reversing the flow from output to input, the same laser interrogation region may be used to perform the cytometry. The cytometry may be performed throughout the sorting process to optimize or control the sorting, or may be performed afterward to allow a multi-pass, sequential sort to be performed on the same sample.Type: GrantFiled: December 12, 2013Date of Patent: October 27, 2015Assignee: Owl biomedical, Inc.Inventors: John S Foster, Nicholas C. Martinez, Kevin E. Shields, Jaquelin K. Spong
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Publication number: 20150211685Abstract: A MEMS-based particle manipulation system which uses a particle manipulation stage and a sensor to detect when the sample volume is exhausted or nearly exhausted. The sensor sends a signal to a fluid control means that reverses the pressure between one of the output channels and the input channels, to keep the surfaces wet with a volume of the sample fluid. This volume can be maintained in the channel until an operator intervenes, or it can be repeatedly shuttled back and forth between the input channel and an output channel. By keeping the channels wet, material from the sample stream does not become adhered to the channel walls, which might otherwise irreversibly change or damage the device.Type: ApplicationFiled: January 29, 2014Publication date: July 30, 2015Applicant: Owl biomedical, Inc.Inventors: John S. FOSTER, Nicholas C. MARTINEZ, Kevin E. SHIELDS, Jaquelin K. SPONG
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Patent number: 8993311Abstract: A disposable cartridge is described which is equipped with a plurality of microfabricated particle sorting structures. The disposable cartridge may include passageways which connect fluid reservoirs in the cartridge with corresponding microfluidic passageways on the particle sorting structure. A flexible gasket may prevent leakages and allow the fluid to cross the gasket barrier through a plurality of holes in the gasket, allowing fluid to be transferred from the reservoirs to the microfabricated particle sorting structures. The plurality of particle sorting structures may be arranged in the disposable cartridge in order to perform multiple separation operations, such as a sequential or parallel sorting operation.Type: GrantFiled: May 23, 2012Date of Patent: March 31, 2015Assignee: Innovative Micro TechnologyInventors: John S. Foster, Daryl W. Grummitt, John C. Harley, James P. Linton, Jaquelin K. Spong, Douglas L. Thompson
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Publication number: 20150031120Abstract: A MEMS-based system and a method are described for separating a target particle from the remainder of a fluid stream. The system makes use of a unique, microfabricated movable structure formed on a substrate, which moves in a rotary fashion about one or more fixed points, which are all located on one side of the axis of motion. The movable structure is actuated by a separate force-generating apparatus, which is entirely separate from the movable structure formed on its substrate. This allows the movable structure to be entirely submerged in the sample fluid.Type: ApplicationFiled: July 29, 2013Publication date: January 29, 2015Applicant: Innovative Micro TechnologyInventors: John S. Foster, Daryl W. Grummitt, John C. Harley, Jaquelin K. Spong, Kimberly L. Turner
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Patent number: 8871500Abstract: A MEMS-based system and a method are described for separating a target particle from the remainder of a fluid stream. The system makes use of a unique, microfabricated movable structure formed on a substrate, which moves in a rotary fashion about one or more fixed points, which are all located on one side of the axis of motion. The movable structure is actuated by a separate force-generating apparatus, which is entirely separate from the movable structure formed on its substrate. This allows the movable structure to be entirely submerged in the sample fluid.Type: GrantFiled: January 23, 2012Date of Patent: October 28, 2014Assignee: Innovative Micro TechnologyInventors: John S. Foster, Daryl W. Grummitt, John C. Harley, Jaquelin K. Spong, Kimberly L. Turner
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Patent number: 8847373Abstract: An approach to obtain localized heat within a sealed vacuum cavity is disclosed. The approach uses an exothermic reaction between two reactants to generate heat in the vicinity of a structure, such as a getter material or a bondline that is heat activated. The exothermic reaction can be initiated by application of laser light, or application of current to a current-carrying conductor in the vicinity of the reactants.Type: GrantFiled: May 7, 2013Date of Patent: September 30, 2014Assignee: Innovative Micro TechnologyInventors: Jeffery F. Summers, Christopher S. Gudeman, Jaquelin K. Spong
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Patent number: 8822207Abstract: A disposable cartridge is described which is compatible with a MEMS particle sorting device. The disposable cartridge may include passageways which connect fluid reservoirs in the cartridge with corresponding microfluidic passageways on the MEMS chip. A flexible gasket may prevent leakages and allow the fluid to cross the gasket barrier through a plurality of holes in the gasket. Vents and septums may also be included to allow air to escape and fluids to be inserted by hypodermic needle. A MEMS-based particle sorting system using the disposable cartridge is also described.Type: GrantFiled: January 23, 2012Date of Patent: September 2, 2014Assignees: Owl biomedical, Inc., Innovative Micro TechnologyInventors: John S. Foster, Daryl W. Grummitt, John C. Harley, James P. Linton, Jaquelin K. Spong
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Patent number: 8736081Abstract: Systems and methods for forming an encapsulated device include a hermetic seal which seals an insulating environment between two substrates, one of which supports the device. The hermetic seal is formed by an alloy of two metal layers, one deposited on a first substrate and the other deposited on the second substrate. At least one of the substrates may include a raised feature formed under at least one of the metal layers. The two metals may for an alloy of a predefined stoichiometry in at least two locations on either side of the midpoint of the raised feature. This alloy may have advantageous features in terms of density, mechanical, electrical or physical properties that may improve the hermeticity of the seal, for example.Type: GrantFiled: August 30, 2012Date of Patent: May 27, 2014Assignee: Innovative Micro TechnologyInventors: John S. Foster, Christopher S. Gudeman, Alok Paranjpye, Jaquelin K. Spong, Douglas L. Thompson
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Publication number: 20140097129Abstract: A MEMS-based particle manipulation system which uses a particle manipulation stage and a plurality of laser interrogation regions. The laser interrogation regions may be used to assess the effectiveness or accuracy of the particle manipulation stage. In one exemplary embodiment, the particle manipulation stage is a microfabricated valve, which sorts a target particle from non-target particles in a fluid stream. The laser interrogation stages are disposed in the microfabricated fluid channels at the input and output of the valve. By reversing the flow from output to input, the same laser interrogation region may be used to perform the cytometry. The cytometry may be performed throughout the sorting process to optimize or control the sorting, or may be performed afterward to allow a multi-pass, sequential sort to be performed on the same sample.Type: ApplicationFiled: December 12, 2013Publication date: April 10, 2014Applicant: OWL BIOMEDICAL, INC.Inventors: John S. FOSTER, Nicholas C. MARTINEZ, Kevin E. SHIELDS, Jaquelin K. SPONG
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Publication number: 20120319303Abstract: Systems and methods for forming an encapsulated device include a hermetic seal which seals an insulating environment between two substrates, one of which supports the device. The hermetic seal is formed by an alloy of two metal layers, one deposited on a first substrate and the other deposited on the second substrate. At least one of the substrates may include a raised feature formed under at least one of the metal layers. The two metals may for an alloy of a predefined stoichiometry in at least two locations on either side of the midpoint of the raised feature. This alloy may have advantageous features in terms of density, mechanical, electrical or physical properties that may improve the hermeticity of the seal, for example.Type: ApplicationFiled: August 30, 2012Publication date: December 20, 2012Applicant: Innovative Micro TechnologyInventors: John S. Foster, Alok Paranjpye, Douglas L. Thompson, Christopher S. Gudeman, Jaquelin K. Spong
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Publication number: 20120255373Abstract: A disposable cartridge is described which is equipped with a plurality of microfabricated particle sorting structures. The disposable cartridge may include passageways which connect fluid reservoirs in the cartridge with corresponding microfluidic passageways on the particle sorting structure. A flexible gasket may prevent leakages and allow the fluid to cross the gasket barrier through a plurality of holes in the gasket, allowing fluid to be transferred from the reservoirs to the microfabricated particle sorting structures. The plurality of particle sorting structures may be arranged in the disposable cartridge in order to perform multiple separation operations, such as a sequential or parallel sorting operation.Type: ApplicationFiled: May 23, 2012Publication date: October 11, 2012Applicants: Owl biomedical, Inc, Innovative Micro TechnologyInventors: John S. Foster, Daryl W. Grummitt, John C. Harley, James P. Linton, Jaquelin K. Spong, Douglas L. Thompson
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Publication number: 20120190104Abstract: A MEMS-based system and a method are described for separating a target particle from the remainder of a fluid stream. The system makes use of a unique, microfabricated movable structure formed on a substrate, which moves in a rotary fashion about one or more fixed points, which are all located on one side of the axis of motion. The movable structure is actuated by a separate force-generating apparatus, which is entirely separate from the movable structure formed on its substrate. This allows the movable structure to be entirely submerged in the sample fluid.Type: ApplicationFiled: January 23, 2012Publication date: July 26, 2012Applicant: Innovative Micro TechnologyInventors: John S. Foster, Daryl W. Grummitt, John C. Harley, Jaquelin K. Spong, Kimberly L. Turner
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Publication number: 20120190105Abstract: A disposable cartridge is described which is compatible with a MEMS particle sorting device. The disposable cartridge may include passageways which connect fluid reservoirs in the cartridge with corresponding microfluidic passageways on the MEMS chip. A flexible gasket may prevent leakages and allow the fluid to cross the gasket barrier through a plurality of holes in the gasket. Vents and septums may also be included to allow air to escape and fluids to be inserted by hypodermic needle. A MEMS-based particle sorting system using the disposable cartridge is also described.Type: ApplicationFiled: January 23, 2012Publication date: July 26, 2012Applicants: Owl biomedical, Inc., Innovative Micro TechnologyInventors: John S. Foster, Daryl W. Grummitt, John C. Harley, James P. Linton, Jaquelin K. Spong
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Patent number: 5625506Abstract: A method and apparatus are provided for maintaining file readback performance compensating for readback errors caused by head/disk interaction used with a data detection channel in a direct access storage device. A readback signal is sensed from at least one disk surface and a data channel error rate is detected responsive to the readback signal. The detected data channel error rate is compared with a first predetermined threshold value and a gain of a phase lock loop (PLL) in the peak data detection channel is optimized responsive to an identified data channel error rate with a first predetermined threshold value. The PLL gain is adjusted until a lowest error rate is detected. A failure warning for the direct access storage device is provided to a user when the detected PLL gain is greater than a predefined loop gain value.Type: GrantFiled: May 1, 1996Date of Patent: April 29, 1997Assignee: International Business Machines CorporationInventors: Moris M. Dovek, Gordon J. Smith, Jaquelin K. Spong
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Patent number: 5561368Abstract: A magnetic field sensor uses four individual magnetoresistive spin valve elements electrically connected in a bridge circuit. The spin valve elements are lithographically formed on the same substrate with their free layers having their magnetization axes parallel to one another. An electrically conductive fixing layer is formed on the substrate but is insulated from the spin valve elements. The application of current through the fixing conductor during fabrication of the field sensor fixes the direction of magnetization of two of the pinned layers to be antiparallel to the direction of magnetization of the other two pinned layers. The bridge circuit output voltage is responsive to an external magnetic field in the plane of the sensor. By appropriate fixing of the direction of magnetization of the pinned layers during sensor fabrication, and appropriate connection to the input and output leads, the bridge circuit output voltage is a measure of either the magnetic field or field gradient.Type: GrantFiled: November 4, 1994Date of Patent: October 1, 1996Assignee: International Business Machines CorporationInventors: Moris M. Dovek, Robert E. Fontana, Jr., Virgil S. Speriosu, Jaquelin K. Spong
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Patent number: 5530602Abstract: A starting sequence is provided for a rotating disk data storage device by providing a low level sensing current to the spindle motor which is able to initiate rotation of the disk spindle assembly when, absent stiction between head and confronting disk surface, it is only necessary to overcome disk assembly inertia and head drag. A sensing device is provided to sense a back electromotive force (EMF) in the spindle motor windings which indicates the start of disk rotation when any stiction condition has been terminated. A sequence of alternating current pulse bursts are applied to the actuator motor to impart a dithering action to the heads which induces axial vibration of the disks to break the stiction between the heads and confronting disk surfaces.Type: GrantFiled: June 29, 1993Date of Patent: June 25, 1996Assignee: International Business Machines CorporationInventors: Zine-Eddine Boutaghou, Donald C. Buettner, Thomas S. Larson, Jaquelin K. Spong