Patent application number | Description | Published |
20090320577 | METHOD FOR DETECTING FAULTS IN THE AIR SYSTEM OF INTERNAL COMBUSTION ENGINES - A method for detecting faults in an air system of an internal combustion engine having an intake manifold and an exhaust manifold includes, but is not limited to the steps of measuring an oxygen concentration of the gas flowing in the exhaust manifold, estimating an intake oxygen control value in the intake manifold and estimating an intake oxygen reference value in the intake manifold based on said oxygen concentration of the gas flowing in the exhaust manifold. The method further includes, but is not limited to the steps of calculating an intake deviation value as a difference between the intake oxygen control value and the intake oxygen reference value and verifying if the intake deviation value is greater than a predetermined first threshold. Besides, the method includes, but is not limited to the steps of estimating an exhaust oxygen control value in the exhaust manifold, calculating an exhaust deviation value a difference between the exhaust oxygen control value and the oxygen concentration of the gas flowing in the exhaust manifold and verifying if the exhaust deviation value is greater than a predetermined second threshold. The method further includes, but is not limited to the steps of determining an exhaust oxygen concentration setpoint indicative of the oxygen concentration in the exhaust manifold, calculating a fresh airflow setpoint as a function of said exhaust oxygen concentration setpoint, measuring a fresh air mass flow value and calculating ( | 12-31-2009 |
20110209682 | CONTROL SYSTEMS FOR A VARIABLE CAPACITY ENGINE OIL PUMP - An oil circulating control system for an engine includes an engine speed module and a mode selection module. The engine speed module determines a speed of the engine. The mode selection module is configured to select a first pressure mode and a second pressure mode of an oil pump of the engine for the speed. The selection module selects one of the first pressure mode and the second pressure mode based on at least one mode request signal. The mode selection module signals a solenoid valve of a variable oil pressure circuit of the oil pump to transition to a first position when operating in the first pressure mode and to a second position when operating in the second pressure mode. | 09-01-2011 |
20110224948 | METHOD FOR THE DIAGNOSIS OF THE EGR COOLER EFFICIENCY IN A DIESEL ENGINE - A method is provided for the diagnosis of the EGR cooler efficiency in a Diesel engine that includes but is not limited to construction of a model for determining the temperature drop y=ΔT in the EGR cooler, the model having a parameter vector θ and an input vector x; performing a model calibration phase in order to estimate the bias h | 09-15-2011 |
20120063927 | CONTROL AND DIAGNOSTIC SYSTEMS FOR A VARIABLE CAPACITY ENGINE OIL PUMP AND AN ENGINE OIL PRESSURE SENSOR - A control system includes an oil pump module and a diagnostic module. The oil pump module, based on engine operating conditions, selectively generates a first mode request signal to initiate a first transition from operating an oil pump of an engine in one of a first pressure mode and a second pressure mode to operating the oil pump in another one of the first pressure mode and the second pressure mode. The second pressure mode is different from the first pressure mode. The diagnostic module, based on when a driver starts the engine, selectively generates a second mode request signal to initiate consecutive transitions from operating the oil pump in the second pressure mode to operating the oil pump in the first pressure mode. The diagnostic module diagnoses a pump fault when a first oil pressure change associated with the consecutive transitions is less than a first predetermined pressure change. | 03-15-2012 |
20120179353 | METHOD OF MONITORING AN ENGINE COOLANT SYSTEM OF A VEHICLE - A method of monitoring an engine coolant system includes modeling the total energy stored within an engine coolant. If an actual temperature of the engine coolant is below a minimum target temperature, the modeled total energy stored within the energy coolant is compared to a maximum stored energy limit to determine if sufficient energy exists within the engine coolant to heat the engine coolant to a temperature equal to or greater than the minimum target temperature. The engine coolant system fails the diagnostic check when the modeled total energy stored within the energy coolant is greater than the maximum stored energy limit, and the minimum target temperature has not been reached. | 07-12-2012 |
20120296518 | METHOD TO DIAGNOSE A FAULT OF AN OIL PISTON COOLING JETS VALVE - Methods for diagnosing a fault of an oil piston cooling jets valve of an internal combustion engine are provided. A method includes sensing a pressure value in a main oil gallery and checking whether the oil piston cooling jets valve is commanded in a state for opening a communication between the main oil gallery and an auxiliary oil gallery or in a state for closing the communication. A pressure value in the auxiliary oil gallery is checked to as to whether it exceeds a predetermined threshold value thereof, above which a jet nozzle of the auxiliary oil gallery automatically opens. A fault of the valve is identified if the pressure value in the main oil gallery exceeds the predetermined threshold value by a predetermined quantity and if a pressure value in the auxiliary oil gallery is different than expected on a basis of the state of the valve. | 11-22-2012 |
20120296547 | SYSTEM AND METHOD FOR DETERMINING COOLANT FLOW IN AN ENGINE - A system includes a temperature determination module and a flow determination module. The temperature determination module determines an engine coolant temperature based on input received from an engine coolant temperature sensor and determines an engine material temperature based on input received from an engine material temperature sensor. The engine coolant temperature is a temperature of coolant in an engine, and the engine material temperature is a temperature of at least one of an engine block and a cylinder head. The flow determination module selectively determines coolant flow through the engine based on the engine coolant temperature and the engine material temperature. | 11-22-2012 |
20120296548 | METHOD FOR PERFORMING ON/OFF DIAGNOSIS OF A SMART COOLING PUMP FOR AN INTERNAL COMBUSTION ENGINE - A method for performing on/off diagnosis of a smart cooling pump for an internal combustion engine comprising a cylinder having an inner liner layer, an external engine block layer, and a coolant layer placed between the inner liner layer and the external engine block layer, wherein the smart cooling pump pumps a coolant fluid inside the coolant layer is provided. | 11-22-2012 |
20130089436 | DIAGNOSTIC SYSTEM AND METHOD FOR A SWITCHABLE WATER PUMP - A system includes a pump control module and a pump diagnostic module. The pump control module switches a switchable water pump from off to on. The pump diagnostic module diagnoses a fault in the switchable water pump based on a first difference between an engine material temperature and an engine coolant temperature when the switchable water pump is switched from off to on. The engine coolant temperature is a temperature of coolant circulated through an engine and the engine material temperature is a temperature of at least one of an engine block and a cylinder head. | 04-11-2013 |