Patents by Inventor Stephen Bart
Stephen Bart 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: 20240060875Abstract: A bi-directional photoacoustic gas sensor includes a first photoacoustic cell, where an electromagnetic radiation source emits radiation to interact with an external gas and generate pressure waves that are detected by a MEMS diaphragm. A second photoacoustic cell has an interior volume and acoustic compliance that corresponds to the interior volume and acoustic compliance of the first photoacoustic cell. Processing circuitry within a substrate uses a first acoustic signal, received by the first photoacoustic cell, and a second acoustic signal, received by the second photoacoustic cell, to determine a bi-directional response of the gas sensor to remove noise and improve the sensor's signal-to-noise ratio.Type: ApplicationFiled: August 17, 2022Publication date: February 22, 2024Inventors: Jeremy Parker, Nishit Goel, Stephen Bart
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Publication number: 20240048249Abstract: Utilization of microphone ultrasonic response is described. A system, comprising: a microelectromechanical system (MEMS) microphone device configured to capture signal data representing an ultrasonic signal and an audio-band signal simultaneously, and a processing circuitry configured to adjust a configuration parameter associated with the MEMS microphone device based on the ultrasonic signal.Type: ApplicationFiled: July 27, 2023Publication date: February 8, 2024Inventors: Jeremy Parker, Stephen Bart
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Publication number: 20230396262Abstract: The present invention relates to an incremental analog to digital converter incorporating noise shaping and residual error quantization. In one embodiment, a circuit includes an incremental analog to digital converter, comprising a loop filter that filters an analog input signal in response to receiving a reset signal, resulting in a filtered analog input signal, and a successive approximation register (SAR) quantizer, coupled with the filtered analog input signal, that converts the filtered analog input signal to an intermediate digitized output of a first resolution based on a reference voltage, wherein the SAR quantizer comprises a feedback loop that shapes quantization noise generated by the SAR quantizer as a result of converting the filtered analog input signal; and a digital filter, coupled with the intermediate digitized output, that generates a digitized output signal of a second resolution, greater than the first resolution, by digitally filtering the intermediate digitized output.Type: ApplicationFiled: June 7, 2022Publication date: December 7, 2023Inventors: Omid Oliaei, Stephen Bart
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Publication number: 20230280296Abstract: A sensor including a micro-bridge structure, wherein the micro-bridge structure comprises a concave geometry, a first electrode on a surface of the micro-bridge structure, a second electrode on the surface of the micro-bridge structure, and a chemical sensing material coupled to the micro-bridge structure overlying the first electrode and the second electrode and exposed to an environment. The chemical sensing material overlays the first electrode and the second electrode and is within the concave geometry of the micro-bridge structure such that the chemical sensing material settles into the concave geometry of the micro-bridge structure during fabrication of the sensor, and wherein the chemical sensing material has an electrical resistance responsive to a concentration of gas in the environment.Type: ApplicationFiled: February 28, 2023Publication date: September 7, 2023Applicant: TDK CORPORATIONInventors: Nishit GOEL, Stephen BART, Raitaro MASAOKA, Kazutaka FUJITA, Tomokazu ISHIKURA
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Patent number: 11162928Abstract: A gas sensor may include a plurality of elements that are responsive to particular gases based at least in part on the temperature of the temperature sensitive element. A first of the elements may be a gas detection element heated to a temperature at which it is responsive to a gas of interest. A plurality of additional elements may be configured in a reference element network and heated to a temperature at which they are not responsive to the gas of interest but are instead responsive to other effects such as humidity. The reference element network output may be used to remove the other effects (e.g., humidity) from the gas detection element output.Type: GrantFiled: November 4, 2019Date of Patent: November 2, 2021Assignee: INVENSENSE, INC.Inventors: Nishit Goel, Stephen Bart
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Publication number: 20210132014Abstract: A gas sensor may include a plurality of elements that are responsive to particular gases based at least in part on the temperature of the temperature sensitive element. A first of the elements may be a gas detection element heated to a temperature at which it is responsive to a gas of interest. A plurality of additional elements may be configured in a reference element network and heated to a temperature at which they are not responsive to the gas of interest but are instead responsive to other effects such as humidity. The reference element network output may be used to remove the other effects (e.g., humidity) from the gas detection element output.Type: ApplicationFiled: November 4, 2019Publication date: May 6, 2021Inventors: Nishit Goel, Stephen Bart
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Patent number: 10352800Abstract: A pressure sensor includes a piezoelectric substrate having a generally planar structure and an anchor location fixing the piezoelectric substrate at the periphery of the planar structure of the piezoelectric substrate. The planar structure of the piezoelectric substrate has a first region having a first characteristic thickness adjacent to the anchor location, and a second region have a second characteristic thickness at a middle region of the substrate. The second characteristic thickness is less than the first characteristic thickness such that the planar structure in the second region is displaced relative to the neutral axis of the planar structure such that while undergoing bending the second region has either mostly compressive or mostly tensile stress.Type: GrantFiled: May 23, 2017Date of Patent: July 16, 2019Assignee: MKS Instruments, Inc.Inventors: Srinivas Tadigadapa, Nishit Goel, Stephen Bart
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Publication number: 20170350779Abstract: A pressure sensor includes a piezoelectric substrate having a generally planar structure and an anchor location fixing the piezoelectric substrate at the periphery of the planar structure of the piezoelectric substrate. The planar structure of the piezoelectric substrate has a first region having a first characteristic thickness adjacent to the anchor location, and a second region have a second characteristic thickness at a middle region of the substrate. The second characteristic thickness is less than the first characteristic thickness such that the planar structure in the second region is displaced relative to the neutral axis of the planar structure such that while undergoing bending the second region has either mostly compressive or mostly tensile stress.Type: ApplicationFiled: May 23, 2017Publication date: December 7, 2017Applicant: MKS Instruments, Inc.Inventors: Srinivas Tadigadapa, Nishit Goel, Stephen Bart
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Patent number: 9367564Abstract: A method of organizing a first group of domain objects relating to hydrocarbon management is disclosed. User-defined logic conditions are established. A plurality of the domain objects in the first group of domain objects are selected. It is determined whether any of the selected plurality of domain objects satisfies the logic conditions. A second group of domain objects is created that includes the logic conditions and a list of the domain objects satisfying the logic conditions. An operation command is performed on the second group of domain objects such that the operation command is performed on all domain objects listed in the second group of domain objects.Type: GrantFiled: December 3, 2010Date of Patent: June 14, 2016Assignee: ExxonMobil Upstream Research CompanyInventors: Stephen Bart Wood, Neal L. Adair, Timothy A. Chartrand, Kelly G. Walker, Alan R. Wild
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Publication number: 20120331412Abstract: A method of organizing a first group of domain objects relating to hydrocarbon management is disclosed. User-defined logic conditions are established. A plurality of the domain objects in the first group of domain objects are selected. It is determined whether any of the selected plurality of domain objects satisfies the logic conditions. A second group of domain objects is created that includes the logic conditions and a list of the domain objects satisfying the logic conditions. An operation command is performed on the second group of domain objects such that the operation command is performed on all domain objects listed in the second group of domain objects.Type: ApplicationFiled: December 3, 2010Publication date: December 27, 2012Inventors: Stephen Bart Wood, Neal L. Adair, Timothy A. Chartrand, Kelly G. Walker, Alan R. Wild
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Patent number: 5565625Abstract: A micromachined force sensor containing separate sensing and actuator structures. A member is suspended above the substrate so that it is movable along an axis in response to a force. The member includes a set of parallel sense fingers and a separate set of parallel force fingers. The sense fingers are positioned between fingers of two sense plates, to form a first differential capacitor, whose capacitance changes when the member moves in response to a force along the axis. The change in capacitance induces a sense signal on the member, which permits the measurement of the magnitude and duration of the force. The force fingers are positioned between fingers of two actuator plates, to form a second differential capacitor. The sense signal can be used to provide feedback to the second differential capacitor to generate different electrostatic forces between the force fingers and the two actuator plates, to offset the force applied along the preferred axis.Type: GrantFiled: December 1, 1994Date of Patent: October 15, 1996Assignee: Analog Devices, Inc.Inventors: Roger T. Howe, Stephen Bart
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Patent number: RE36498Abstract: A micromachined force sensor containing separate sensing and actuator structures. A member is suspended above the substrate so that it is movable along an axis in response to a force. The member includes a set of parallel sense fingers and a separate set of parallel force fingers. The sense fingers are positioned between fingers of two sense plates, to form a first differential capacitor, whose capacitance changes when the member moves in response to a force along the axis. The change in capacitance induces a sense signal on the member, which permits the measurement of the magnitude and duration of the force. The force fingers are positioned between fingers of two actuator plates, to form a second differential capacitor. The sense signal can be used to provide feedback to the second differential capacitor to generate different electrostatic forces between the force fingers and the two actuator plates, to offset the force applied along the preferred axis.Type: GrantFiled: October 14, 1998Date of Patent: January 18, 2000Assignee: Analog DevicesInventors: Roger T. Howe, Stephen Bart