Patents by Inventor John Coppola
John Coppola 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: 9562841Abstract: An internal combustion engine control system including an internal combustion engine including at least one cylinder configured to perform combustion of an air/fuel mixture therein during a drive cycle. An electronic engine control module is configured to selectively execute at least one soot-based diagnostic operation that diagnoses the internal combustion engine based on exhausted soot. An electronic diagnostic evaluation module is in electrical communication with the engine control module and is configured to disable the at least one soot-based diagnostic operation based on at least one transient drive event of the internal combustion engine during the drive cycle.Type: GrantFiled: August 4, 2014Date of Patent: February 7, 2017Assignee: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Vincent J. Tylutki, John Coppola, Christopher Whitt
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Publication number: 20160033385Abstract: An internal combustion engine control system including an internal combustion engine including at least one cylinder configured to perform combustion of an air/fuel mixture therein during a drive cycle. An electronic engine control module is configured to selectively execute at least one soot-based diagnostic operation that diagnoses the internal combustion engine based on exhausted soot. An electronic diagnostic evaluation module is in electrical communication with the engine control module and is configured to disable the at least one soot-based diagnostic operation based on at least one transient drive event of the internal combustion engine during the drive cycle.Type: ApplicationFiled: August 4, 2014Publication date: February 4, 2016Inventors: Vincent J. Tylutki, John Coppola, Christopher Whitt
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Patent number: 8984867Abstract: A method for assessing NO2 generation efficiency in a diesel engine after-treatment (AT) system having a diesel oxidation catalyst (DOC) downstream of the engine generating the NO2 and a selective catalytic reduction (SCR) catalyst downstream of the DOC converting NOX with the aid of the NO2. Engine exhaust gas flow is passed into the AT system and a reductant is injected into the gas flow between the DOC and the SCR catalyst. SCR inlet gas flow temperature is monitored during transient engine operation and DOC inlet and SCR catalyst outlet NOX concentrations are detected when the SCR catalyst inlet gas flow temperature is in a predetermined range. SCR catalyst NOX conversion efficiency is determined using the detected DOC inlet and SCR catalyst outlet concentrations of NOX. Additionally, whether the NO2 generation efficiency is at or above threshold efficiency is assessed by comparing the determined and threshold NOX conversion efficiencies.Type: GrantFiled: April 10, 2012Date of Patent: March 24, 2015Assignee: GM Global Technology Operations LLCInventors: Igor Anilovich, John Coppola, Janean E. Kowalkowski, John F. Van Gilder, Ognyan N. Yanakiev
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Patent number: 8910466Abstract: An apparatus and method of controlling a vehicle aftertreatment system is provided. The aftertreatment system treats exhaust gas produced by the vehicle engine and includes a particulate filter, and a NOx reducing device such as a selective catalytic reduction (SCR) device. The particulate filter is configured to regenerate to remove accumulated particles when the exhaust gas is heated above a regeneration temperature. A diagnostic device is included for monitoring the aftertreatment system. The diagnostic device may be a sensor for measuring the oxides of nitrogen (NOx) and/or an SCR efficiency monitor. A controller is employed to optimize the function of the diagnostic device. The controller does not enable the diagnostic device when the vehicle is powered until one or more entry conditions are satisfied.Type: GrantFiled: May 9, 2012Date of Patent: December 16, 2014Assignee: GM Global Technology Operations LLCInventors: Janean E. Kowalkowski, Stephen Paul Levijoki, James M. Perrin, John Coppola
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Patent number: 8863499Abstract: An exhaust gas treatment system for an internal combustion engine is provided having an exhaust gas conduit, a diesel exhaust fluid (“DEF”) source, a selective catalytic reduction (“SCR”) device, a NOx sensor, and a control module. The DEF source supplies a DEF having a quality factor. The NOx sensor is in fluid communication with the exhaust gas conduit. The NOx sensor is located downstream of the SCR device and is configured for detecting a NOx concentration value. The control module is in communication with the DEF source and the NOx sensor. The control module stores a diagnostic adaptation factor and an expected NOx value. The control module includes a dosing module for determining a controls adaptation factor that is based on a deviation between the NOx concentration value and the expected NOx value. The diagnostic adaptation factor is selectively updated with the controls adaptation factor.Type: GrantFiled: May 10, 2012Date of Patent: October 21, 2014Assignee: GM Global Technology Operations LLCInventors: Janean E. Kowalkowski, Robert J. Sutschek, John Coppola
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Patent number: 8631690Abstract: A control method for monitoring a selective catalytic reduction (“SCR”) device is provided. A control method includes adjusting an existing efficiency threshold based on a dosing adaptation value to determine an efficiency threshold. The dosing adaptation value represents an adjusted value of a supply of reductant based on a determined deviation of a downstream NOx concentration value to an expected NOx concentration. The control method includes comparing the efficiency threshold with a determined efficiency of the SCR device. The control method includes generating a message based on comparing the efficiency threshold with the determined efficiency of the SCR device.Type: GrantFiled: August 28, 2012Date of Patent: January 21, 2014Assignee: GM Global Technology Operations LLCInventors: Janean E. Kowalkowski, John Coppola
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Patent number: 8607625Abstract: A service procedure to test the SCR device involves turning on an upstream and downstream SCR NOx sensor, turning off an NH3 injector, running the engine until enough upstream NOx mass has been generated by the engine to deplete any NH3 load remaining in the SCR device, determining the operational status of the NOx sensors as follows: if 1?downstream NOx ppm/upstream NOx ppm=approx. 0; then the downstream NOx sensor is reading the same as the upstream NOx sensor and the downstream NOx sensor is determined to be good and the SCR device may have to be replaced; and if 1?downstream NOx ppm/upstream NOx ppm>approx. 0; then the downstream NOx sensor is reading high and the downstream NOx sensor is determined to be bad and downstream NOx sensor may have to be replaced.Type: GrantFiled: May 10, 2012Date of Patent: December 17, 2013Assignee: GM Global Technology Operations LLCInventors: Janean E. Kowalkowski, John Coppola
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Publication number: 20130298527Abstract: An apparatus and method of controlling a vehicle aftertreatment system is provided. The aftertreatment system treats exhaust gas produced by the vehicle engine and includes a particulate filter, and a NOx reducing device such as a selective catalytic reduction (SCR) device. The particulate filter is configured to regenerate to remove accumulated particles when the exhaust gas is heated above a regeneration temperature. A diagnostic device is included for monitoring the aftertreatment system. The diagnostic device may be a sensor for measuring the oxides of nitrogen (NOx) and/or an SCR efficiency monitor. A controller is employed to optimize the function of the diagnostic device. The controller does not enable the diagnostic device when the vehicle is powered until one or more entry conditions are satisfied.Type: ApplicationFiled: May 9, 2012Publication date: November 14, 2013Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: JANEAN E. KOWALKOWSKI, STEPHEN PAUL LEVIJOKI, JAMES M. PERRIN, JOHN COPPOLA
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Publication number: 20130298655Abstract: A service procedure to test the SCR device involves turning on an upstream and downstream SCR NOx sensor, turning off an NH3 injector, running the engine until enough upstream NOx mass has been generated by the engine to deplete any NH3 load remaining in the SCR device, determining the operational status of the NOx sensors as follows: if 1?downstream NOx ppm/upstream NOx ppm=approx. 0; then the downstream NOx sensor is reading the same as the upstream NOx sensor and the downstream NOx sensor is determined to be good and the SCR device may have to be replaced; and if 1?downstream NOx ppm/upstream NOx ppm>approx. 0; then the downstream NOx sensor is reading high and the downstream NOx sensor is determined to be bad and downstream NOx sensor may have to be replaced.Type: ApplicationFiled: May 10, 2012Publication date: November 14, 2013Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Janean E. Kowalkowski, John Coppola
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Publication number: 20130298533Abstract: An exhaust gas treatment system for an internal combustion engine is provided having an exhaust gas conduit, a diesel exhaust fluid (“DEF”) source, a selective catalytic reduction (“SCR”) device, a NOx sensor, and a control module. The DEF source supplies a DEF having a quality factor. The NOx sensor is in fluid communication with the exhaust gas conduit. The NOx sensor is located downstream of the SCR device and is configured for detecting a NOx concentration value. The control module is in communication with the DEF source and the NOx sensor. The control module stores a diagnostic adaptation factor and an expected NOx value. The control module includes a dosing module for determining a controls adaptation factor that is based on a deviation between the NOx concentration value and the expected NOx value. The diagnostic adaptation factor is selectively updated with the controls adaptation factor.Type: ApplicationFiled: May 10, 2012Publication date: November 14, 2013Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Janean E. Kowalkowski, Robert J. Sutschek, John Coppola
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Publication number: 20130263591Abstract: A method for assessing NO2 generation efficiency in a diesel engine after-treatment (AT) system having a diesel oxidation catalyst (DOC) downstream of the engine generating the NO2 and a selective catalytic reduction (SCR) catalyst downstream of the DOC converting NOX with the aid of the NO2. Engine exhaust gas flow is passed into the AT system and a reductant is injected into the gas flow between the DOC and the SCR catalyst. SCR inlet gas flow temperature is monitored during transient engine operation and DOC inlet and SCR catalyst outlet NOX concentrations are detected when the SCR catalyst inlet gas flow temperature is in a predetermined range. SCR catalyst NOX conversion efficiency is determined using the detected DOC inlet and SCR catalyst outlet concentrations of NOX. Additionally, whether the NO2 generation efficiency is at or above threshold efficiency is assessed by comparing the determined and threshold NOX conversion efficiencies.Type: ApplicationFiled: April 10, 2012Publication date: October 10, 2013Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Igor Anilovich, John Coppola, Janean E. Kowalkowski, John F. Van Gilder, Ognyan N. Yanakiev
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Publication number: 20130104637Abstract: A control method for monitoring a selective catalytic reduction (“SCR”) device is provided. A control method includes adjusting an existing efficiency threshold based on a dosing adaptation value to determine an efficiency threshold. The dosing adaptation value represents an adjusted value of a supply of reductant based on a determined deviation of a downstream NOx concentration value to an expected NOx concentration. The control method includes comparing the efficiency threshold with a determined efficiency of the SCR device. The control method includes generating a message based on comparing the efficiency threshold with the determined efficiency of the SCR device.Type: ApplicationFiled: August 28, 2012Publication date: May 2, 2013Applicant: GM GLOBAL TECHNOLOGY OPERATIONS LLCInventors: Janean E. Kowalkowski, John Coppola
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Patent number: 8205601Abstract: An engine system includes a correction factor generation module and a boost pressure correction module. The correction factor generation module generates a correction factor based on a first pressure difference, wherein the first pressure difference corresponds to a difference between an intake manifold absolute pressure (MAP) when an engine is on and a barometric pressure. The boost pressure correction module generates a corrected boost pressure based on the MAP when the engine is on, a second pressure difference, and the correction factor, wherein the second pressure difference corresponds to a difference between the MAP when the engine is off and the barometric pressure.Type: GrantFiled: March 16, 2009Date of Patent: June 26, 2012Inventor: John Coppola
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Patent number: 7918129Abstract: A control system for an engine system includes a temperature sensor and a diagnostic module. The temperature sensor measures an outlet temperature at an outlet of a cooling system. The diagnostic module estimates the cooling fluid temperature, determines the cooling performance based on the outlet temperature and the cooling fluid temperature, and selectively diagnoses a fault in the cooling system based on the cooling performance and a predetermined threshold.Type: GrantFiled: October 3, 2008Date of Patent: April 5, 2011Inventors: John Coppola, Jose L. Deleon, James M. Dixon
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Publication number: 20100229840Abstract: An engine system includes a correction factor generation module and a boost pressure correction module. The correction factor generation module generates a correction factor based on a first pressure difference, wherein the first pressure difference corresponds to a difference between an intake manifold absolute pressure (MAP) when an engine is on and a barometric pressure. The boost pressure correction module generates a corrected boost pressure based on the MAP when the engine is on, a second pressure difference, and the correction factor, wherein the second pressure difference corresponds to a difference between the MAP when the engine is off and the barometric pressure.Type: ApplicationFiled: March 16, 2009Publication date: September 16, 2010Applicant: GM GLOBAL TECHNOLOGY OPERATIONS, INC.Inventor: John Coppola
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Publication number: 20090293600Abstract: A control system for an engine system includes a temperature sensor and a diagnostic module. The temperature sensor measures an outlet temperature at an outlet of a cooling system. The diagnostic module estimates the cooling fluid temperature, determines the cooling performance based on the outlet temperature and the cooling fluid temperature, and selectively diagnoses a fault in the cooling system based on the cooling performance and a predetermined threshold.Type: ApplicationFiled: October 3, 2008Publication date: December 3, 2009Applicant: GM GLOBAL TECHNOLOGY OPERATIONS, INC.Inventors: John Coppola, Jose L. Deleon, James M. Dixon
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Publication number: 20070030860Abstract: Systems and methods are disclosed for providing switched broadband. The disclosed systems and methods may include creating a traffic signature corresponding to a network element connected to a network, the network element having a network element ID and being addressable on the network by the network element ID. Furthermore, the disclosed systems and methods may include optimizing a quality of service for the network element based on the created traffic signature.Type: ApplicationFiled: October 25, 2005Publication date: February 8, 2007Inventors: Ben Bekele, John Coppola
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Publication number: 20050085736Abstract: An apparatus for detecting a myocardial infarction including a housing and a plurality of electrodes extending from the housing. Each of the plurality of electrodes is placed at a predetermined position on a body of a user for obtaining data representing bodily activity. A processor is positioned within the housing and connected to the plurality of electrodes. The processor analyzes the data obtained by the plurality of electrodes to form a baseline ECG and records the formed ECG. A means for storing the data representing the baseline ECG value is connected to the processor. The apparatus further includes a means for notifying a user of a myocardial infarction. Upon positioning the plurality of electrodes on the body of the user subsequently to storing the formed ECG, the plurality of electrodes obtain data representing current bodily activity. The processor then compares the current data to the stored.Type: ApplicationFiled: October 17, 2003Publication date: April 21, 2005Inventors: John Ambrose, John Coppola, Mary DeVoe
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Patent number: 4346049Abstract: Pressureless sintered silicon carbide ceramic bodies, having an equiaxed microstructure and an alpha crystalline habit can be produced by firing shaped bodies, containing finely divided silicon carbide, boron source such as boron carbide, carbon source such as phenolic resin and a temporary binder, at a sintering temperature of from about 1900.degree. C. to about 2250.degree. C., depending on the sintering atmosphere, under conditions such that a coating of carbon source is maintained on the finely divided silicon carbide, and sufficient boron is maintained within the shaped body during firing. Boron can be maintained within the shaped body by various techniques, such as the use of a "seasoned boat" or graphite container for the body being sintered, which has been saturated with boron by exposure to boron at or about the temperature of sintering.Type: GrantFiled: July 31, 1978Date of Patent: August 24, 1982Assignee: Kennecott CorporationInventors: John A. Coppola, Laurence N. Hailey, Carl H. McMurtry
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Patent number: D525065Type: GrantFiled: January 13, 2005Date of Patent: July 18, 2006Inventor: John Coppola