Patent application number | Description | Published |
20080223334 | TORQUE BASED FUEL CUT-OFF - An engine control system is provided. The system includes: an engine torque module that estimates torque output based on charge energy; and a cylinder mode module that controls fuel cut-off and adjusts spark timing to the engine based on the torque output. | 09-18-2008 |
20080223453 | ETHANOL COMPENSATED FUEL DENSITY FOR FUEL CONSUMED CALCULATION - An engine control module determining an alcohol compensated fuel consumption value includes an alcohol percent module that determines an alcohol percent in fuel and a fuel mass module that determines a mass of the fuel. The engine control module also includes a fuel volume module that calculates a volume of the fuel based on the mass of the fuel, a density of the fuel, and the alcohol percent. | 09-18-2008 |
20090037073 | POWER ENRICHMENT SCHEDULING FOR COORDINATED TORQUE CONTROL SYSTEM - A control system for an engine of a vehicle includes a requested torque module that determines a first requested torque based on an accelerator pedal position and a current engine torque output capacity. An accelerator effective position module determines an accelerator effective position based on a requested driver axle torque request signal. A power enrichment (PE) module enables a PE mode to provide a richer than stoichiometric fuel equivalence ratio based on the first requested torque and the accelerator effective position. | 02-05-2009 |
20090048766 | AIR FUEL RATIO CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINES - A fuel control system of an engine system comprises a pre-catalyst exhaust gas oxygen (EGO) sensor and a control module. The pre-catalyst EGO sensor determines a pre-catalyst EGO signal based on an oxygen concentration of an exhaust gas. The control module determines at least one fuel command and determines at least one expected oxygen concentration of the exhaust gas. The control module determines a final fuel command for the engine system based on the pre-catalyst EGO signal, the fuel command, and the expected oxygen concentration. | 02-19-2009 |
20090064976 | LEARN CORRECTION FEATURE FOR VIRTUAL FLEX FUEL SENSOR - A system for estimating fuel concentration comprises an ethanol estimating module that generates an ethanol estimate based on baseline closed loop corrections (CLC). A fuel system module controls fuel to an engine and generates a fuel system error. The ethanol estimating module selectively adjusts the baseline CLC and the ethanol estimate based on the fuel system error. A method for estimating fuel concentration comprises generating an ethanol estimate based on baseline closed loop corrections (CLC); controlling fuel to an engine and generating a fuel system error; and selectively adjusting said baseline CLC and said ethanol estimate based on said fuel system error. | 03-12-2009 |
20090071447 | VIRTUAL FUEL SENSOR FOR DUAL FUEL TANK APPLICATIONS - A method comprises detecting a status of a transfer pump for transferring fuel between a first fuel source and a second fuel source; receiving a fuel trim value and a vehicle operating parameter; and calculating a fuel composition of one of the first fuel source and second fuel source based on the fuel trim value, the transfer pump status and the vehicle operating parameter. A control module comprises a secondary pump transfer module detecting a status of a transfer pump for transferring fuel between a first fuel source and a second fuel source; and a fuel composition estimation module in communication with the secondary pump transfer module, receiving a fuel trim value and a vehicle operating parameter, and calculating a fuel composition of one of the first fuel source and second fuel source based on the fuel trim value, the transfer pump status, and the vehicle operating parameter. | 03-19-2009 |
20090115593 | VEHICULAR WARNING SYSTEM AND METHOD - Systems and methods are provided for warning a driver of a first motor vehicle that it is approaching a second motor vehicle. One system includes a processor coupled to a detector and an alarm device. The processor is in cooperation with the detector to determine a speed of the first vehicle and to activate the alarm device if the speed at which the first vehicle is approaching the second vehicle is greater than a predetermined speed. Another system includes means for determining a speed the first motor vehicle is approaching the second motor vehicle and means for warning the driver of the first motor vehicle if the speed is greater than the threshold speed. A method includes detecting a speed that the first motor vehicle is approaching the second motor vehicle and transmitting a warning to the first motor vehicle driver if the speed is greater than a threshold speed. | 05-07-2009 |
20090118985 | SECURED COUNT OF CYLINDERS FUELED IN A COORDINATED TORQUE CONTROL SYSTEM - A control system for a vehicle includes a first counter that indicates a first count of a number of cylinders of an engine of the vehicle that are fueled. A second counter indicates a second count of the number of cylinders that are fueled. A control module determines a secure count based on the first count and the second count. The control module adjusts torque output of the engine based on the secure count. | 05-07-2009 |
20090150057 | OXYGEN SENSOR HEATER CONTROL STRATEGY - A heating module for an oxygen sensor comprises an estimated mass module, a cumulative mass module, and a temperature control module. The estimated mass module determines an estimated mass of intake air to remove condensation from an exhaust system after startup of an engine. The cumulative mass module determines a cumulative mass of intake air after the engine startup. The temperature control module adjusts a temperature of an oxygen sensor measuring oxygen in the exhaust system to a first predetermined temperature after the engine startup and adjusts the temperature to a second predetermined temperature when the cumulative air mass is greater than the estimated air mass, wherein the second predetermined temperature is greater than the first predetermined temperature. | 06-11-2009 |
20090216425 | CONTROL SYSTEM AND METHOD FOR STARTING AN ENGINE WITH PORT FUEL INJECTION AND A VARIABLE PRESSURE FUEL SYSTEM - A fuel control system includes a pressure comparison module that generates a pressure control signal when a fuel supply pressure is greater than a predetermined pressure value, a temperature comparison module that generates a temperature control signal when a temperature of an engine is greater than a predetermined temperature value, and a pre-crank fuel module that selectively dispenses pre-crank fuel prior to cranking the engine based on the pressure control signal and the temperature control signal. A related fuel control method is also provided. | 08-27-2009 |
20100075802 | COLD START EMISSION REDUCTION STRATEGY FOR COORDINATED TORQUE CONTROL SYSTEMS - A cold-start control system for an internal combustion engine includes a heat estimation module, a torque request module and a propulsion torque determination module. The heat estimation module determines an exhaust system temperature and estimates heat required to heat an exhaust system to a predetermined temperature. The torque request module generates a torque request based on the estimated heat. The propulsion torque determination module determines a desired engine torque based on the torque request. | 03-25-2010 |
20110202256 | DISTRIBUTED FUEL DELIVERY SYTEMS FOR ALTERNATIVE GASEOUS FUEL APPLICATIONS - A control system includes an engine control module that generates fuel injector command signals for fuel injectors of an engine and engine parameter signals that indicate operating characteristics of the engine. A fuel injector control module communicates with the engine control module via a network. The engine control module transmits the engine parameter signals to the fuel injector control module via the network. The fuel injector control module generates compensated fuel injector signals based on the fuel injector command signals and the engine parameter signals. The engine control module may generate fuel injector command signals for a gaseous fuel mode based on signals received from the fuel injector control module. | 08-18-2011 |
20120296552 | SYSTEM AND METHOD FOR CONTROLLING FUEL INJECTION IN ENGINES CONFIGURED TO OPERATE USING DIFFERENT FUELS - A first control system for an engine includes first and second control modules. The first control module determines first and second fuel masses for first and second fuel injection systems of the engine, respectively, and that controls the first fuel injection system to inject a first fuel based on the first fuel mass. The second control module controls the second fuel injection system to inject a second fuel based on the second fuel mass. A second control system for an engine includes first and second control modules. The first control module controls a first fuel injection system of the engine to inject a first fuel and selectively disables at least one of a plurality of components of a second fuel injection system of the engine. The second control module controls the second fuel injection system to inject a second fuel. | 11-22-2012 |
20140257674 | SYSTEM AND METHOD FOR CONTROLLING AN ENGINE IN A BI-FUEL VEHICLE TO PREVENT DAMAGE TO A CATALYST DUE TO ENGINE MISFIRE - A system according to the principles of the present disclosure includes a misfire detection module and a fuel control module. The misfire detection module detects misfire in a cylinder of an engine. The fuel control module controls a first fuel system to deliver a first fuel to the cylinder and controls a second fuel system to deliver a second fuel to the cylinder. The first fuel and the second fuel are different types of fuel. The fuel control module selectively switches from delivering the first fuel to the cylinder to delivering the second fuel to the cylinder when misfire is detected in the cylinder. | 09-11-2014 |
20150051811 | SENSOR BASED MEASUREMENT AND PURGE CONTROL OF FUEL VAPORS IN INTERNAL COMBUSTION ENGINES - A fuel control system for a vehicle includes a pressure compensation module that compensates an intake oxygen signal based on an intake pressure signal and that generates a compensated intake oxygen signal. A blow-by estimation module generates an estimated blow-by flow. A purge flow estimation module estimates the purge flow based on the compensated intake oxygen signal and the estimated blow-by flow. A fuel control estimation module reduces fueling to injectors of an engine of the vehicle based on the purge flow. | 02-19-2015 |