Entries |
Document | Title | Date |
20080201056 | Internal Combustion Engine Control Device and Method - An ECU of an internal combustion engine estimates an anticipated air amount in response to a demand for the internal combustion engine and causes an injector to inject an initial amount of fuel determined in accordance with the anticipated air amount so that an air-fuel ratio of a mixture in a combustion chamber is lower than a target value, and thereafter, calculates an amount of intake air aspired into the combustion chamber based on an in-cylinder pressure in the combustion chamber at a given timing during a compression stroke and before ignition, and causes the injector to inject a correction amount of fuel determined based on the calculated amount of the intake air and the initial amount of the fuel so that the air-fuel ratio of the mixture in the combustion chamber corresponds to the target value. | 08-21-2008 |
20080201057 | Method and Device for Determining a Corrective Value Used for Influencing an Air/Fuel Ratio - The invention relates to a method for the cylinder-selective control of an air/fuel mixture to be burnt in a multi-cylinder internal combustion engine, in which the lambda values for different cylinders or groups of cylinders are separately sensed and controlled, and also relates to a multi-cylinder internal engine suitable for carrying out the method. In accordance with the invention, the lambda values of the individual cylinders or groups of cylinders are simultaneously controlled to different required values using an integrating I-control proportion with variable integrator slope and/or a differentiating D-control proportion. | 08-21-2008 |
20080201058 | INTERNAL COMBUSTION ENGINE AND WORKING CYCLE - The invention is concerned with a method of deriving mechanical work from a combustion gas in internal combustion engines and reciprocating internal combustion engines for carrying out the method. The invention includes methods and apparatuses for managing combustion charge densities, temperatures, pressures and turbulence in order to produce a true mastery within the power cylinder in order to increase fuel economy, power, and torque while minimizing. polluting emissions. In its preferred embodiments, the method includes the steps of (i) producing an air charge, (ii) controlling the temperature, density and pressure of the air charge, (iii) transferring the air charge to a power cylinder of the engine such that an air charge having a weight and density selected from a range of weight and density levels ranging from below atmospheric weight and density to heavier-than-atmospheric weight and density is introduced into the power cylinder, and (iv) then compressing the air charge at a lower-than-normal compression ratio, (v) causing a pre-determined quantity of charge-air and fuel to produce a combustible mixture, (vi) causing the mixture to be ignited within the power cylinder and (vii) allowing the combustion gas to expand against a piston operable in the power cylinders with the expansion ratio of the power cylinders being substantially greater than the compression ratio of the power cylinders of the engine. In addition to other advantages, the invented method is capable of producing mean effective cylinder pressures ranging from lower-than-normal to higher-than-normal. In the preferred embodiments, the mean effective cylinder pressure is selectively variable (and selectively varied) throughout the mentioned range during the operation of the engine. In an alternate embodiment related to constant speed-constant load operation, the mean effective cylinder pressure is selected from the range and the engine is configured, in accordance with the present invention, such that the mean effective cylinder pressure range is limited, being varied only in the amount required for producing the power, torque and speed of the duty cycle for which the engine is designed. | 08-21-2008 |
20080201059 | INTERNAL COMBUSTION ENGINE AND WORKING CYCLE - The invention is concerned with a method of deriving mechanical work from a combustion gas in internal combustion engines and reciprocating internal combustion engines for carrying out the method. The invention includes methods and apparatuses for managing combustion charge densities, temperatures, pressures and turbulence in order to produce a true mastery within the power cylinder in order to increase fuel economy, power, and torque while minimizing. polluting emissions. In its preferred embodiments, the method includes the steps of (i) producing an air charge, (ii) controlling the temperature, density and pressure of the air charge, (iii) transferring the air charge to a power cylinder of the engine such that an air charge having a weight and density selected from a range of weight and density levels ranging from below atmospheric weight and density to heavier-than-atmospheric weight and density is introduced into the power cylinder, and (iv) then compressing the air charge at a lower-than-normal compression ratio, (v) causing a pre-determined quantity of charge-air and fuel to produce a combustible mixture, (vi) causing the mixture to be ignited within the power cylinder and (vii) allowing the combustion gas to expand against a piston operable in the power cylinders with the expansion ratio of the power cylinders being substantially greater than the compression ratio of the power cylinders of the engine. In addition to other advantages, the invented method is capable of producing mean effective cylinder pressures ranging from lower-than-normal to higher-than-normal. In the preferred embodiments, the mean effective cylinder pressure is selectively variable (and selectively varied) throughout the mentioned range during the operation of the engine. In an alternate embodiment related to constant speed-constant load operation, the mean effective cylinder pressure is selected from the range and the engine is configured, in accordance with the present invention, such that the mean effective cylinder pressure range is limited, being varied only in the amount required for producing the power, torque and speed of the duty cycle for which the engine is designed. | 08-21-2008 |
20080201060 | Fuel injection controller and fuel injection control system - A fuel injection controller (engine control ECU) controls a fuel injection mode of an engine having cylinder pressure sensors in all of four cylinders for measuring pressures in the cylinders. The controller measures a pressure (cylinder pressure) in the cylinder as an object cylinder (each of the four cylinders) based on an output of the corresponding cylinder pressure sensor when the fuel combustion is in progress in the object cylinder and the fuel to be used in the combustion is additionally injected and supplied to the same cylinder (e.g., when an after-injection is performed). The controller variably controls a command signal (i.e., pulse width) sent to the injector in relation to the target injection (the after-injection) on the basis of the measured cylinder pressure. | 08-21-2008 |
20080201061 | Method and Device for Operating an Internal Combustion Engine - An injection valve of an internal combustion engine is actuated at least once by at least one specified control value of an actuating variable for metering at least one specified minimum quantity corrected by a correction value. The correction value for the control value is adjusted according to a deviation of an expected response value of an actuating variable from an actual response value of the response variable, as a result of the actuation of the respective injection valve, that is to say by way of a reduction of the deviation between the expected response value of the response variable and the actual response value of the response variable. If the correction value undershoots a specified negative correction threshold value and overshoots a specified positive correction threshold value, a fault is detected in a component which is affecting the exhaust gas in the cylinder assigned to the respective injection valve. | 08-21-2008 |
20080201062 | Method and device for diagnosing a crankcase ventilation of an internal combustion engine - A method and device for diagnosing a crankcase ventilation of an internal combustion engine, which enable a diagnosis of a malfunction of an actuator of the crankcase ventilation. The internal combustion engine has at least two cylinder banks to which the crankcase ventilation is supplied, and an actuator is provided via whose position the distribution of the crankcase ventilation to the at least two cylinder banks is influenced. In a first position of the actuator, a different distribution of the crankcase ventilation to the at least two cylinder banks comes about than in a second position of the actuator that differs therefrom. Given simultaneously activated operation of the at least two cylinder banks, the actuator is switched over at least one between the two different positions. For at least one of the at least two cylinder banks, a characteristic variable of the internal combustion engine influenced by the crankcase ventilation is determined prior to and following the switchover operation. A minimum value for a change in the characteristic variable of at least one of the at least two cylinder banks and/or the ratio of the characteristic variable between the at least two cylinder banks is specified for the switchover-related change in the distribution of the crankcase ventilation to the at least two cylinder banks. A malfunction of the actuator is detected if at least one change derived from the ascertained values for the characteristic variable undershoots its assigned expected minimum value in quantitative terms. | 08-21-2008 |
20080201063 | COMBUSTION CONTROL METHOD FOR A DIRECT-INJECTION CONTROLLED AUTO-IGNITION COMBUSTION ENGINE - A powertrain and a control method therefore are provided wherein ignition of a combustible charge in a combustion chamber of a controlled auto-ignition internal combustion engine equipped with in-cylinder fuel-injection and a spark ignition device is controlled. A spark-discharge plasma channel is generated between the electrodes of the spark ignition device, and the combustible charge is ignited. The spark-discharge plasma channel is moved toward and entrained by the combustible charge, effective to advance phasing of controlled auto-ignition combustion. | 08-21-2008 |
20080208432 | Decoupling control strategy for interrelated air system components - A fluid control system for an engine is disclosed. The fluid control system may have a first fluid control component, a second fluid control component, and a controller in communication with the first and second fluid control components. The controller may be configured to determine an operational change associated with the first fluid control component to achieve desired operation of the engine. The controller may also be configured to determine an effect the operational change will have on performance of the second fluid control component, and adjust operation of the second fluid control component to accommodate the effect substantially simultaneously with implementation of the operational change. | 08-28-2008 |
20080208433 | METHOD FOR AUTOMATIC CONTROL OF AIR/FUEL RATIO IN AN INTERNAL COMBUSTION ENGINE - Method for automatic control of air/fuel ratio λ in an internal combustion engine equipped with catalyst comprises the following steps: measuring the temperature of the exhaust gases, or of the catalyst; keeping the engine at a constant feed and speed whilst the air/fuel ratio λ is varied with increases or decreases; selecting a value of λ for the operation of the engine that: | 08-28-2008 |
20080208434 | Internal Combustion Engine and Working Cycle - The invention is concerned with a method of deriving mechanical work from a combustion gas in internal combustion engines and reciprocating internal combustion engines for carrying out the method. The invention includes methods and apparatuses for managing combustion charge densities, temperatures, pressures and turbulence in order to produce a true mastery within the power cylinder in order to increase fuel economy, power, and torque while minimizing. polluting emissions. In its preferred embodiments, the method includes the steps of (i) producing an air charge, (ii) controlling the temperature, density and pressure of the air charge, (iii) transferring the air charge to a power cylinder of the engine such that an air charge having a weight and density selected from a range of weight and density levels ranging from below atmospheric weight and density to heavier-than-atmospheric weight and density is introduced into the power cylinder, and (iv) then compressing the air charge at a lower-than-normal compression ratio, (v) causing a pre-determined quantity of charge-air and fuel to produce a combustible mixture, (vi) causing the mixture to be ignited within the power cylinder and (vii) allowing the combustion gas to expand against a piston operable in the power cylinders with the expansion ratio of the power cylinders being substantially greater than the compression ratio of the power cylinders of the engine. In addition to other advantages, the invented method is capable of producing mean effective cylinder pressures ranging from lower-than-normal to higher-than-normal. In the preferred embodiments, the mean effective cylinder pressure is selectively variable (and selectively varied) throughout the mentioned range during the operation of the engine. In an alternate embodiment related to constant speed-constant load operation, the mean effective cylinder pressure is selected from the range and the engine is configured, in accordance with the present invention, such that the mean effective cylinder pressure range is limited, being varied only in the amount required for producing the power, torque and speed of the duty cycle for which the engine is designed. | 08-28-2008 |
20080208435 | INTERNAL COMBUSTION ENGINE AND WORKING CYCLE - The invention is concerned with a method of deriving mechanical work from a combustion gas in internal combustion engines and reciprocating internal combustion engines for carrying out the method. The invention includes methods and apparatuses for managing combustion charge densities, temperatures, pressures and turbulence in order to produce a true mastery within the power cylinder in order to increase fuel economy, power, and torque while minimizing. polluting emissions. In its preferred embodiments, the method includes the steps of (i) producing an air charge, (ii) controlling the temperature, density and pressure of the air charge, (iii) transferring the air charge to a power cylinder of the engine such that an air charge having a weight and density selected from a range of weight and density levels ranging from below atmospheric weight and density to heavier-than-atmospheric weight and density is introduced into the power cylinder, and (iv) then compressing the air charge at a lower-than-normal compression ratio, (v) causing a pre-determined quantity of charge-air and fuel to produce a combustible mixture, (vi) causing the mixture to be ignited within the power cylinder and (vii) allowing the combustion gas to expand against a piston operable in the power cylinders with the expansion ratio of the power cylinders being substantially greater than the compression ratio of the power cylinders of the engine. In addition to other advantages, the invented method is capable of producing mean effective cylinder pressures ranging from lower-than-normal to higher-than-normal. In the preferred embodiments, the mean effective cylinder pressure is selectively variable (and selectively varied) throughout the mentioned range during the operation of the engine. In an alternate embodiment related to constant speed-constant load operation, the mean effective cylinder pressure is selected from the range and the engine is configured, in accordance with the present invention, such that the mean effective cylinder pressure range is limited, being varied only in the amount required for producing the power, torque and speed of the duty cycle for which the engine is designed. | 08-28-2008 |
20080208436 | Vehicle Control System - A method for controlling an engine having an intake manifold and an outlet control device coupled to the manifold for controlling flow exiting the manifold and entering at least one cylinder of the engine, the engine further having an inlet control device for controlling flow entering the manifold, the method comprising determining a driver torque command; calculating a desired cylinder charge based on said driver torque command; adjusting the outlet control device to provide said desired cylinder charge; and adjusting the inlet control device based on intake manifold pressure. | 08-28-2008 |
20080215227 | Method for operating an internal combustion engine - A method for operating an internal combustion engine having a combustion method with homogeneous auto ignition. A driver's demand, predetermined by the gas pedal, is converted into a desired torque to be given off by the engine. A reference filling value for the air filling is determined by a working-point-dependent lambda value (λ | 09-04-2008 |
20080215228 | Variable Valve Drive For a Reciprocating Internal Combustion Engine - The task of the present invention is to improve a variable valve operating mechanism in order to support different operating ranges of a motor vehicle through optimized operation of the reciprocating internal combustion engine. This task is achieved with a reciprocating internal combustion engine of a motor vehicle with the features of Claim | 09-04-2008 |
20080215229 | Method and system for estimating an air-intake amount of an internal combustion engine, and internal combustion engine - A method of estimating an air-intake amount of an internal combustion engine is provided. The method may comprise detecting a fluid energy amount in an interior of an air-intake passage at first and second points in time while an intake valve is closed from a compression stroke to an exhaust stroke, and calculating a predicted air-intake amount using the values of the fluid energy amounts at the first and second points with reference to an air-intake amount calculation map showing a correlation between the values of the fluid energy amounts at the first and second points and the predicted air-intake amount in the intake stroke, the air-intake amount calculation map being pre-created by finding the values of the fluid energy amounts in the air-intake passage at the first and second points and the air-intake amount, for plural running states of the internal combustion engine. | 09-04-2008 |
20080221775 | MULTI-CYLINDER ENGINE - The present invention concerns a multi-cylinder engine comprising a throttle body ( | 09-11-2008 |
20080221776 | System and Method for Reconfiguring an Electronic Control Unit of a Motor Vehicle to Optimize Fuel Economy - System and method for modifying the operation of an engine comprising an engine control unit coupled to the engine, a command module coupled to the engine control unit, wherein the command module is operable to modify operating characteristics of the engine by reconfiguring the function of the engine control unit. The engine control unit further comprises software and/or firmware, and the command module reconfigures the function of the engine control unit by altering the software and/or firmware. The command module may modify the engine operation, for example, based upon environmental conditions, topographic conditions, and/or traffic conditions. | 09-11-2008 |
20080221777 | MODEL SIMPLIFICATION METHOD FOR MODEL-BASED DEVELOPMENT - The invention provides a model simplification method for model-based development for installing a simplified model of a predetermined system of a vehicle in a vehicle ECU so as to control an engine. The simplified model is different from a detailed model used for designing the predetermined system. The method includes (1) performing an inverse calculation to determine a conformance value for making the simplified model conform to an actual engine, using the simplified model; and calculating a value required for performing the inverse calculation to determine the conformance value, using the detailed model. | 09-11-2008 |
20080221778 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - An internal combustion engine system, including a primary fuel tank that stores a fuel, a fuel reformer that reforms the fuel from the primary fuel tank, a secondary fuel tank that stores the fuel reformed by the fuel reformer, a fuel injection device that injects the fuel that is selectably supplied from either the primary fuel tank or secondary fuel tank into a combustion chamber, a sensor that detects the quantity of fuel remaining in the secondary fuel tank, and a control device that sets and outputs a load and revolution speed of the engine. The control device is configured to set the engine load and engine revolution speed according to a request output determined based upon an operation performed by an operator. The engine load and engine revolution speed when the quantity of fuel remaining in the secondary fuel tank is more than a predetermined value, are set different than when the quantity of fuel remaining in the secondary fuel tank is less than the predetermined value. | 09-11-2008 |
20080221779 | Controller for Operating at Least One Fuel Injector of an Internal Combustion Engine - To simplify reliable detection of operating faults in a control unit for operating an electrical component (for example, a fuel injector), an end stage is provided on the output side and is provided with a first line section and a second line section for supplying current in a synchronized manner to an electrical consumer which can be connected to the two line sections via an external line pair. A detection coil configuration is provided for detecting operating faults on the basis of an evaluation of a current that is induced at the detection coil configuration. The detection coil configuration is flowed through by a magnetic flux that is composed of magnetic flow components which are caused by the current flows in the two line sections, and wherein mutual compensation of the magnetic flow components is provided in a normal mode. | 09-11-2008 |
20080228374 | FUEL INJECTION DEVICE AND ADJUSTMENT METHOD THEREOF - A fuel injection device (fuel supply system) of a common rail type fuel injection system for an engine includes a pressure sensor disposed in a fuel inlet of an injector for measuring a fuel pressure at a position where the sensor is disposed and an ECU for sensing various kinds of pressure fluctuations associated with the injection including a pressure leak due to an injection operation of the injector and waving characteristics due to actual injection thereof based on sensor outputs from the pressure sensor. The ECU serially obtains the sensor outputs from the pressure sensor at intervals of 20 μsec. | 09-18-2008 |
20080228375 | SPARK IGNITION TYPE INTERNAL COMBUSTION ENGINE - A spark-ignition type internal combustion engine, including a main tank for storing a to-be-determined fuel having an unknown self-ignition property, an auxiliary tank for accumulating a reference fuel having a known self-ignition property, and a controller. The controller is programmed to supply to a combustion chamber a blended fuel prepared by blending the to-be-determined fuel and the reference fuel at a predetermined ratio, measure a self-ignition property of the blended fuel, and determine the unknown self-ignition property of the to-be-determined fuel based on the measured self-ignition property of the blended fuel, the known self-ignition property of the reference fuel and the ratio of the blended fuel. The controller is also programmed to introduce the to-be-determined fuel after the determination from the main tank to the auxiliary tank, and store the to-be-determined fuel in the auxiliary tank such that the to-be-determined fuel serves as a next reference fuel having a known self-ignition property. | 09-18-2008 |
20080228376 | ENGINE CONTROL SYSTEM AND INITIALIZATION METHOD OF THE SAME - An engine control system and an engine control method for improving the ability to start an engine by changing the execution timings of predetermined sumchecks in ROM to shorten the time required for initialization of the system. Upon starting an ECU with a power supply supplied from an AC generator as a result of an operation of a kick starter, a CPU initialization, which includes a hardware reset and a software initialization, is executed. An ignition timing calculation sumcheck, which is required for the calculation of an ignition timing, and injection timing calculation sumcheck, which is required for the calculation of an injection timing, are not executed in a period of the software initialization. Instead, they are executed during BG (background) processing after a movement to routine processing, which upon completion of the software initialization, starts the ECU to permit driving and controlling an igniter and a fuel injector. | 09-18-2008 |
20080228377 | CONTROL DEVICE AND METHOD OF CONTROLLING AN INTERNAL COMBUSTION ENGINE - A control device of an internal combustion engine includes: a target negative pressure setting section that set a target negative intake pipe pressure during cold acceleration to a negative intake pipe pressure larger than a negative intake pipe pressure prior to the cold acceleration; a throttle valve control section that controls a throttle valve so that the negative intake pipe pressure increases during cold acceleration; and an intake valve control section that controls a variable valve mechanism of an intake valve, based on the target negative intake pipe pressure, to obtain a target intake air amount. | 09-18-2008 |
20080228378 | Method of operating a spark ignition internal combustion engine - In a method for operating a spark-ignition, direct-injection internal combustion engine, wherein fuel is injected into a cylinder of the internal combustion engine and is ignited by a spark plug as a function of at least the load of the internal combustion engine, a crank angle is determined at which a first amount of fuel is injected into the cylinder during the intake stroke whereby a lean mixture is formed in the cylinder, subsequently, as a function of at least the load of the internal combustion engine, a crank angle is determined at which a second amount of fuel is injected, whereby a mixture cloud, which is richer than the lean mixture is formed in the lean mixture and a third amount of fuel is injected in the form of a stratified injection for forming a locally enriched and ignitable fuel/air mixture in the region of the spark plug close to an ignition time which is then ignited by the spark plug causing also combustion of the mixture cloud and the lean mixture. | 09-18-2008 |
20080234916 | Two-Point Control of a High-Pressure Pump for Direct-Injecting Gasoline Engines - In a method for operating an internal combustion engine ( | 09-25-2008 |
20080234917 | CONTROL SYSTEM AND METHOD FOR INTERNAL COMBUSTION ENGINE AND ENGINE CONTROL UNIT - A control system for an internal combustion engine, which is capable of properly setting fuel injection timing according to the actual degree of delay of the amount of fresh air to be supplied to cylinders of the engine, thereby making it possible to positively suppress torque variation, when the control system has switched an air-fuel ratio mode between a lean mode and a rich mode. The control system controls the air-fuel ratio of a mixture by switching the air-fuel ratio mode. In the lean mode, the control system sets a target fresh air amount for the lean mode, and in the rich mode, it sets a target fresh air amount for the rich mode. Upon switching the air-fuel ratio mode, the control system corrects the fuel injection timing according to the difference between the target fresh air amount for the lean mode or the rich mode and the detected fresh air amount. | 09-25-2008 |
20080243360 | Method and System for Adjusting Electronic Ignition for Multiple Fuel Types - An engine control unit is configured to provide a fuel injector pulse width signal. A signal modifier comprises a fuel-type identifier in communication with the engine control unit. The signal modifier is configured to provide a 25% greater, modified pulse width signal to the fuel injector component in response to a switch selection. The pulse width signal is optimized for a gasoline blend and, more particularly, to an E85 fuel blend. | 10-02-2008 |
20080243361 | CONTROL OF IN-CYLINDER CONDITIONS OF AN INTERNAL COMBUSTION ENGINE OPERATING WITH MULTIPLE COMBUSTION MODES - A method of controlling a diesel engine that is capable of multiple combustion modes and equipped with a turbocharger and EGR loop. The control method avoids a singularity condition inherent in turbocharged diesel engine having multiple combustion modes. For different combustion modes, different system states, control variables, and actuators are carefully chosen for different controllers based on the characteristics of the corresponding combustion mode as well as sensor and measurement limitations. | 10-02-2008 |
20080243362 | Air-fuel ratio detection apparatus of internal combustion engine - In a multi-cylinder engine, to compute the air-fuel ratio of each cylinder by an air-fuel ratio sensor disposed in an exhaust pipe, a cylinder is determined by a crank angle detected by a crank angle sensor. A deviation in the air-fuel ratio of each cylinder is detected on the basis of the output signal of the air-fuel ratio sensor disposed in the exhaust pipe and the forcibly changed quantity of the air-fuel ratio. | 10-02-2008 |
20080255749 | INTAKE AIR LEAK DETERMINATION SYSTEM AND METHOD - An intake manifold air leak determination system and method for an internal combustion engine including an intake manifold fluidly connected to a plurality of cylinders of the engine and a plurality of fuel injection valves for injecting fuel for the cylinders. Each of the plurality of fuel injection valves corresponds to a respective one of the plurality of cylinders. A fuel cutoff indicating module determines that fuel has been cut from one or more of said plurality of cylinders due to certain operating conditions of the internal combustion engine. An air leak detection module determines whether a significant air leak is occurring at the intake manifold. An air leak fuel cutoff module cuts off fuel supply to the fuel injection valves when the air leak detection module determines that a significant air leak is occurring at the intake manifold. An air leak detection prohibiting module prohibits detection of an air leak at the intake manifold when the fuel cutoff indicating module indicates that fuel has been cut from one or more of the plurality of cylinders. | 10-16-2008 |
20080255750 | Air/Fuel Ratio Control Apparatus Of An Internal Combustion Engine - Apparatus and method for air/fuel ratio control for smoothening variation of air/fuel ratio among a plurality of cylinders of an internal combustion engine including a sensor for measuring output of the internal combustion engine. A device calculates a correlation function of each cylinder by taking cross-correlation of values measured by the sensor and a reference signal for each cylinder. A device then calculates a smoothing target value which is common for all of the cylinders. Cylinder controllers produce control input to the respective cylinders such that the correlation function converges to the smoothing target value. | 10-16-2008 |
20080255751 | Process and Device for Controlling an Internal Combustion Engine - In a process for controlling an internal combustion engine ( | 10-16-2008 |
20080255752 | Internal Combustion Engine Having Variable Valve Lift Mechanism - Methods and systems for controlling an internal combustion engine are provided. The method may include opening and closing an intake valve respectively at first opening and closing timings of a cylinder cycle during an engine start when a temperature of the internal combustion engine is below a predetermined temperature, and opening and closing the intake valve respectively at second opening and closing timings of a cylinder cycle during an engine start when a temperature of the internal combustion engine is above the predetermined temperature. The second closing timing may be later than the first closing timing and after a bottom dead center of an intake stroke of the cylinder cycle. The second opening timing may be earlier than the first opening timing, and a difference between the first and second closing timings may be greater than a difference between the first and second opening timings. | 10-16-2008 |
20080255753 | Method and System for Automatically Adjusting Electronic Fuel Injection in Response to Fuel Type - An engine control unit is configured to provide a fuel injector pulse width signal. A signal modifier comprises a fuel-type identifier in communication with the engine control unit. The signal modifier is configured to provide a 25% greater, modified pulse width signal to the fuel injector component in response to a parameter input to the fuel-type identifier. The pulse width signal is optimized for a gasoline blend and, more particularly, to an E85 fuel blend. | 10-16-2008 |
20080262696 | Method for Monitoring a Control Circuit and Actuating Device - A method for monitoring a control circuit of an actuating device with at least one actuator including an actuated part and an electric member controlling movement of the actuated part, the control circuit including a bridge, the controlling electric member being connected in the bridge. The method includes: powering the bridge, producing at least one measurement signal representing the position of the actuated part, and selectively interrupting conduction in at least one branch of the bridge in accordance with the measurement signal to maintain the measurement signal substantially in an operating zone defined between a low threshold and a high threshold during a phase activating the controlling electric member. Conduction is interrupted in at least one branch to place the controlling electrical member in short-circuit via two branches of the bridge when the measurement signal reaches at least one specific threshold above the low threshold. | 10-23-2008 |
20080262697 | Method For Operating An Internal Combustion Engine, Taking Into Consideration The Individual Properties Of The Injection Devices - A method for operating an internal combustion engine, in which fuel is injected using an injection device into a combustion chamber of a cylinder of the internal combustion engine, a fuel quantity to be injected being ascertained as a function of individual properties of the injection device, and in which functional monitoring is performed, in which an actual torque is ascertained on the basis of performance quantities of the internal combustion engine and monitored for a deviation from a permissible torque. The individual properties of the injection device are taken into consideration when ascertaining the actual torque, where the functional monitoring is improved. | 10-23-2008 |
20080262698 | METHOD AND APPARATUS TO DETERMINE INSTANTANEOUS ENGINE POWER LOSS FOR A POWERTRAIN SYSTEM - There is provided a method and an article of manufacture comprising a storage medium having machine-executable code stored therein for estimating a power loss for an internal combustion engine at a point in time. The code includes code to determine engine operating conditions. A nominal power loss is determined based upon an engine operating point. A power loss correction to the nominal power loss is determined based upon barometric pressure, engine temperature, air/fuel ratio, and catalyst temperature. The power loss correction is determinable for: an engine air/fuel ratio mode, an engine cylinder activation mode, and, an engine operating temperature mode. | 10-23-2008 |
20080262699 | Control system for internal combustion engine - A control system for an internal combustion engine, which is capable of estimating a property of fuel accurately even when the engine is in an operating condition other than idling. An in-cylinder pressure sensor detects an amount of change in pressure in a cylinder # | 10-23-2008 |
20080262700 | HIGH-PRESSURE FUEL PUMP CONTROL DEVICE FOR ENGINE - A high-pressure fuel pump control device is capable of reducing current consumption, increasing pump durability, and promoting a rise of fuel pressure from startup. The high-pressure fuel pump control device comprises a fuel injector valve for directly injecting fuel in a common rail into a combustion chamber and a high-pressure fuel pump for feeding the fuel under pressure to the common rail. The high-pressure fuel pump comprises a pressurization chamber, a plunger for pressurizing the fuel in the pressurization chamber, a fuel passage valve disposed in the pressurization chamber, and an actuator for actuating the fuel passage valve. The control device includes a control unit for executing output control of a drive signal for the actuator to vary a discharge rate of the high-pressure fuel pump. The control unit starts outputting of the actuator drive signal during a period from operation start to a point in time at which the actuator drive signal becomes able to issue in a predetermined crank angle phase, and sets timing of stopping the outputting of the actuator drive signal to a point in time at which the fuel pressure in the common rail has boosted over a predetermined value per unit time. | 10-23-2008 |
20080262701 | ALTERNATE FUEL BLENDING SYSTEM AND ASSOCIATED METHOD - A fuel control system for controlling the use of primary fuel and alternate fuel in an internal combustion engine without cross-contamination of fuel types. Cross-contamination of fuel types may eliminate the ability to receive certain benefits or financial incentives associated with use of alternate fuel, including but not limited to RINs, credits, and subsidies. In one embodiment, primary and/or alternate fuel are controllably delivered from sources to a flow cell. If blending is desired, both primary and alternate fuels are delivered to the flow cell. The engine is fed with the resulting primary fuel, alternate fuel, or blended mixture of fuel from the flow cell. The flow cell contains a bypass inlet port adapted to receive excess fuel not consumed by the engine in lieu of the excess fuel being returned to the primary and/or alternate fuel sources. In this manner, cross-contamination of the fuel sources can be avoided. | 10-23-2008 |
20080262702 | FUEL SUPPLY AMOUNT CONTROL SYSTEM AND BOAT PROPULSION UNIT - In a fuel supply amount control system, during a period of engine startup from the time when a crankshaft starts to rotate by a starter motor to the time when the crankshaft stably rotates by fuel combustion, a fuel supply amount is controlled independently before and after a cylinder stroke determination. This enables determination of the fuel supply amount independently before and after the cylinder stroke determination. Accordingly, the required fuel amounts are provided respectively before and after the cylinder stroke determination. As a result, even if the required fuel amounts are different before and after the cylinder stroke determination, engine startup can be achieved in a short time. | 10-23-2008 |
20080270004 | ENGINE IDLE WARM-UP OF A HOMOGENEOUS CHARGE COMPRESSION IGNITION ENGINE - A homogeneous charge compression ignition engine is fueled within a warm-up region of engine temperatures using a minimally defined fuel mass schedule and injection timings and simple interpolative techniques. | 10-30-2008 |
20080270005 | FUEL SUPPLY CONTROLLER FOR FLEX-FUEL - A fuel supply controller for a flex-fuel engine in which, when a significant change in output of an alcohol concentration sensor is acknowledged and air-fuel ratio feedback conditions are fulfilled, a remaining fuel supply determination section determines that remaining fuel has been supplied, provided that the significant change in output of the air-fuel ratio sensor has continued for a fourth threshold period. After the acknowledgement of the significant change till elapse of the fourth threshold period, basic supply quantity Tm is converted into converted supply quantity Tc based on an unupdated learning value; and after elapse of the fourth threshold period, the conversion is made based on an updated learning value, which is equivalent to the alcohol concentration after the significant change. | 10-30-2008 |
20080270006 | Fuel Control System of Internal Combustion Engine - The invention precisely achieves an air fuel ratio control precision in each of operating regions of an engine, particularly a demand air fuel ratio at a time of an engine transition. In a fuel control system correcting a basic fuel amount in such a manner as to estimate a fuel adhered to an air intake pipe of an engine and an evaporated fuel from the adhered fuel so as to achieve a demanded air fuel ratio, a temperature of a fuel adhered portion is estimated on the basis of an amount relation between the fuel to be adhered and the already adhered fuel, or a heat quantity balance. A fuel adhesion amount and a fuel evaporation amount are determined on the basis of the estimated temperature. | 10-30-2008 |
20080270007 | Control Apparatus for Direct Injection Type Internal Combustion Engine - An apparatus controls the quantity of fuel injection of an injector in accordance with the fuel pressure in the fuel rail of a direct injection type internal combustion engine. A reference value for controlling the injector is obtained on the basis of the difference and the fuel pressure in the fuel rail at the time of starting fuel injection out of injector. | 10-30-2008 |
20080275621 | Internal Combustion Engine - An internal combustion engine | 11-06-2008 |
20080275622 | Method for Auto-Ignition Operation and Computer Readable Storage Device for Use With an Internal Combustion Engine - A method for controlling an engine having a variable valve actuator, the method comprising of operating the engine in a first mode where the engine carries out spark ignition combustion of air and fuel; and changing operation to a second mode where the engine carries out homogenous charge compression ignition combustion of air and fuel, where said variable valve actuator unit is adjusted in response to said change to provide a shorter valve opening or lift. | 11-06-2008 |
20080275623 | Air-fuel ratio controller for an internal combustion engine and diagnosis apparatus for intake sensors - A computer calculates an estimated cylinder-intake-air amount based on outputs from an airflow meter and a throttle position sensor, and then calculates a reference cylinder-intake-air amount based on an air-fuel ratio in an exhaust gas and fuel injection amount. An error of the estimated cylinder-intake-air amount is calculated by comparing the reference cylinder-intake-air amount with an estimated cylinder-intake-air amount base value. The error is low-pass filtered. The estimated cylinder-intake-air amount base value is corrected to obtain the final estimated cylinder-intake-air amount. | 11-06-2008 |
20080281498 | Method for Operating an Internal Combustion Engine - The procedure is used for the operation of an internal combustion engine ( | 11-13-2008 |
20080281499 | Fuel-injection-timing adapting method and apparatus for direct injection engine - A computer simulates a relationship between a fuel-rate of fuel which collides with the cavity of the piston and the fuel injection timing, and/or the relationship between the fuel-rate of fuel which collide with the cylinder inner wall and the fuel injection timing. A range of the fuel injection timing in which the combustion state is stable is computed based on the simulation results. This range of fuel injection timing may be defined as the measuring range in which the measure points are arranged. Furthermore, the fuel injection timing is varied gradually around an upper and lower limit values of the measuring range and the engine torque is measured. The measuring range is corrected so that the combustion state becomes stable. | 11-13-2008 |
20080281500 | INJECTION CHARACTERISTIC DETECTION APPARATUS, CONTROL SYSTEM, AND METHOD FOR THE SAME - A fuel injection characteristic detection apparatus is applied to a fuel feed system. The fuel feed system is configured to inject fuel into one of a cylinder, an intake passage, and an exhaust passage of an internal combustion engine by using a fuel injection valve. The fuel injection characteristic detection apparatus includes fuel pressure obtaining unit for successively obtaining pressure of fuel supplied to the fuel injection valve. The fuel injection characteristic detection apparatus further includes pulsation pattern storing unit for associating a pulsation pattern of fuel pressure, which accompanies an injection operation of the fuel injection valve, with at least a fuel injection mode and a fuel pressure level at a present time point and for storing the associated pulsation pattern in a storage medium. | 11-13-2008 |
20080281501 | Method of Adapting an Internal Combustion Engine to the Quality of the Fuel Used - A method of controlling fuel supply means of an internal combustion engine, employed when the engine is started, this method includes: measuring at least one characteristic value ( | 11-13-2008 |
20080288157 | HIGH EFFICIENCY STOICHIOMETRIC INTERNAL COMBUSTION ENGINE SYSTEM - A power system including a stoichiometric compression ignition engine in which a roots blower is positioned in the air intake for the engine to control air flow. Air flow is decreased during part power conditions to maintain the air-fuel ratio in the combustion chamber of the engine at stoichiometric, thus enabling the use of inexpensive three-way catalyst to reduce oxides of nitrogen. The roots blower is connected to a motor generator so that when air flow is reduced, electrical energy is stored which is made available either to the roots blower to temporarily increase air flow or to the system electrical load and thus recapture energy that would otherwise be lost in reducing air flow. | 11-20-2008 |
20080288158 | CONTROL FOR KNOCK SUPPRESSION FLUID SEPARATOR IN A MOTOR VEHICLE - A fuel system for an engine of a vehicle and a method of operating the fuel system are described. As a non-limiting example, the fuel system includes a fuel tank; a fuel separator configured to separate a fuel mixture received at an inlet into a first separated fuel at a first outlet and a second separated fuel at a second outlet, where the first separated fuel has a higher alcohol concentration than the second separated fuel; a first fuel return passage fluidly coupling a first separator outlet passage to the fuel tank via a first valve; a second fuel return passage fluidly coupling a second separator outlet passage to the fuel tank via a second valve; and a control system configured to operate the first and second fuel injector groups to deliver the first and second separated fuels to the engine in different ratios responsive to an operating condition. | 11-20-2008 |
20080294326 | Method for Determining Fuel Injection Pressure - A method for determining fuel injection pressure or detecting a discrepancy in the fuel injection process of an internal combustion engine is provided. The engine includes a camshaft that actuates at least one fuel injector of the engine's fuel injection equipment. The method includes the step of determining a value T that is representative of the torque generated on the camshaft, such as the instantaneous torque or rotational speed of the camshaft, the torque being a resultant of accelerating and decelerating forces exerted on the camshaft by the at least one fuel injector during a phase of operation of the internal combustion engine. The method also includes the step of monitoring the value T for any increment, decrement or irregularity. | 11-27-2008 |
20080300769 | Method For Estimating an Engine Exhaust Temperature and Method For Diagnosing a Cylinder Pressure Sensor Using an Exhaust Temperature Estimate - A method for estimating exhaust temperature on an output of an internal combustion engine cylinder, the cylinder including a crankshaft transforming into a rotation a translational movement of a piston mounted sliding in the cylinder, the piston closing a combustion chamber of the cylinder. The exhaust temperature is estimated based on the temperature inside the cylinder at a time of opening of the valve, the temperature inside the cylinder being itself estimated from an angle of rotation of the crankshaft, cylinder pressure, volume of air injected into the cylinder, and flow rate of recycled gases. A method diagnoses a cylinder pressure sensor based on an estimate of the exhaust temperature. | 12-04-2008 |
20080300770 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - During lean combustion, an ECU as a control device for a diesel engine calculates a ratio between a target A/F value and a detected A/F value detected by a A/F sensor, wherein the target A/F value is a ratio between a target air volume and a target injection amount in order to obtain a request torque. The ECU calculates the air volume after compensation during rich combustion by multiplying the target air volume with the compensation gain value. The ECU instructs an air intake throttle valve and an EGR valve to regulate those opening degrees according to the calculation result in order to decrease a torque difference between the lean combustion and the rich combustion. | 12-04-2008 |
20080300771 | IRREGULAR DETECTION DEVICE AND FUEL INJECTION SYSTEM USING THE SAME - In a fuel injection system, an ECU judges occurrence of cylinder misfire based on a variation of the number of rotation speed of a diesel engine when an ignition judgment condition is satisfied after the diesel engine starts. If there is a non-ignition cylinder, the increased number of rotation speed of the diesel engine becomes in general smaller than a predetermined value. The ECU gets a common rail pressure corresponding to the non-ignition cylinder, and then judges whether or not a correct pressure variation occurs. The ECU then judges the occurrence of malfunction of the fuel injection valve when the decreased value of the corresponding common rail pressure is out of a normal range, The ECU judges the condition of each cylinder based on the judgment result regarding whether or not the fuel injection valve correctly injects the fuel into the corresponding cylinder. | 12-04-2008 |
20080300772 | HIGH EFFICIENCY INTERNAL COMBUSTION ENGINE - A method for use in generating power in an internal combustion engine includes controlling a flow of a gas having an initial temperature and an initial pressure to a combustion chamber of the engine by a controller through an intake mechanism to provide a first mass of the gas to the chamber. The combustion chamber is expanded from a minimum volume to a maximum volume in an intake stroke. The maximum volume of the chamber exceeds a maximum compression volume of the chamber. The first mass of the gas in the chamber has a first pressure and a first temperature at the maximum compression volume. The chamber is reduced to the compression volume from the maximum volume in a compression stroke. The compression volume is about a volume of the chamber such that the first mass of the gas at the first pressure and the first temperature in the chamber is less than a maximum mass detonating with a fuel by the end of the compression stroke in a gasoline engine. In the case of a diesel engine, the compression volume is about a volume of the chamber such that the first mass of the gas at the first pressure and the first temperature in the chamber is greater than a minimum mass self-igniting with a fuel by the end of the compression stroke. The expansion of the chamber from the compression volume to the maximum volume during the intake stroke and the compression of the chamber to the compression volume during the compression stroke includes a process which is about adiabatic and about reversible. The gas has a second pressure and a second temperature during the process which are lower than the initial temperature and the initial pressure. A mixture of the gas and the fuel in the chamber is ignited to expand the chamber from the minimum volume to the maximum volume in a power stroke. The chamber is reduced to the minimum volume from the maximum volume in an exhaust stroke and exhaust gas and burned fuel are exhausted resulting from the igniting into a surrounding ambient environment. The chamber is expanded from the minimum volume to the maximum volume in a next intake stroke and the flow of the gas is controlled to provide the first mass of the gas to the chamber during the next intake stroke. | 12-04-2008 |
20080306675 | Method of operating a compression ignition engine - It relates to a method of operating a compression ignition engine comprising:—
| 12-11-2008 |
20080312803 | Supercharging System for Internal Combustion Engine - An object of the invention is to provide a technique for excellently controlling a supercharger equipped with an electric motor. A supercharging system for an internal combustion engine according to the present invention is provided with a supercharger equipped with an electric motor, where rotation of the rotary shaft of the supercharger is assisted by the electric motor, and control unit for controlling assisting force of said electric motor in such a way that the rotation speed of the supercharger becomes a target rotation speed. The control unit determines the target rotation speed of the supercharger based on any one of (1) the degree of opening of the accelerator, (2) the degree of opening of the accelerator and the rotation speed of the internal combustion engine, (3) the actual degree of opening of a throttle valve and the rotation speed of the internal combustion engine, and (4) the target degree of opening of the throttle valve and the rotation speed of the internal combustion engine, and controls the assisting force by the electric apparatus in such a way that the target rotation speed is attained. | 12-18-2008 |
20080312804 | Fuel injection control apparatus for engine - A fuel injection control apparatus for an engine which carried out a fuel injection control according to a speed density system which estimates an intake air amount from detected engine rotational speed value and intake pipe pressure value to decide a fuel injection amount, the control apparatus preventing an air fuel ratio from becoming lean due to clogging of an air cleaner, by calculating an intake pipe pressure differential pressure value between an intake pipe pressure average value and an intake pipe pressure minimum value which are continuously detected, and by correcting the fuel injection amount according to a predetermined procedure while using the differential pressure value of the intake pipe pressure. | 12-18-2008 |
20080312805 | CONTROLLER AND CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - A requested injection time InjT that is necessary for a fuel injector to inject a fuel per one combustion cycle is computed in response to variables of an accelerator manipulated by a driver. An injectable time InjMax per one combustion cycle is computed on the basis of an engine speed, and whether the requested injection time InjT is larger than the injectable time InjMax is determined. Then, when it is positively determined that the requested injection time InjT is larger than the injectable time InjMax, the fuel pump is subjected to load-up operation so as to increase a fuel feed pressure. | 12-18-2008 |
20080312806 | ABNORMALITY DIAGNOSIS DEVICE AND CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - An exhaust gas discharged from a combustion chamber of each cylinder flows near an air-fuel ratio sensor via a junction. An ECU estimates an air-fuel ratio of each cylinder based upon a sensing value of an air-fuel ratio sensor. When a variation in the air-fuel ratio among the cylinders is equal to or greater than a predetermined value, the ECU determines that an abnormality exists in the air-fuel ratio. When a quantity of the exhaust gas discharged from each cylinder is less than another predetermined value, an intake air quantity is increased and ignition timing is delayed before the determination of presence or absence of the abnormality. | 12-18-2008 |
20080312807 | Process for automatically controlling the rail pressure during a starting operation - A process for automatically controlling the rail pressure (pCR) in an internal combustion engine with a common-rail system during the starting operation, the process including: calculating control deviation from a nominal rail pressure and an actual rail pressure; calculating, in a pressure controller, a correcting variable for actuating a suction throttle on the basis of the control deviation; and the suction throttle determining the required quantity of fuel. After the engine has been started, an adaptation process is activated upon detection of a negative control deviation of the rail pressure (pCR) followed by a positive control deviation, as a result of which the correcting variable is changed temporarily in such way as to increase the amount of fuel being delivered. | 12-18-2008 |
20080319633 | Device and Method for Controlling Internal Combustion Engine - The internal combustion engine has a valve driving mechanism (VM) capable of changing the valve-opening characteristic of at least one of an intake valve (Vi) and an exhaust valve (Ve), an in-cylinder pressure sensor for detecting the in-cylinder pressure in a combustion chamber and ECU. ECU calculates the variation amount of the in-cylinder pressure caused by the valve-overlap of the intake valve (Vi) and the exhaust valve (Ve), and based on this variation amount of the in-cylinder pressure and the in-cylinder pressure detected at a predetermined timing in the compression stroke, calculates an amount of air sucked in the combustion chambers, as well as, based on this calculated intake air amount, determines the ignition timing. The amount of air sucked in the combustion chamber is accurately and costlessly calculated, and the ignition timing is optimally determined by using the calculated air amount. | 12-25-2008 |
20080319634 | Method for Determining a Correction Value for the Lambda Center Position in the Control of an Internal Combustion Engine - In a method for determining a correction value λk for the lambda center position λm which is specified in the control of the air/fuel ratio which is force-modulated between a first lean lambda value λ | 12-25-2008 |
20080319635 | INTERNAL COMBUSTION ENGINE SYSTEM, AND A METHOD IN SUCH AN ENGINE SYSTEM - An embodiment of the invention relates to an engine system, and a method in an engine system comprising an internal combustion engine having at least one cylinder ( | 12-25-2008 |
20090005955 | Controller for a Solenoid Operated Valve - A controller moves a solenoid operated valve with a first solenoid operating pulse during a travel time. After a time interval, the controller applies a second pulse, which moves the valve towards its original position. The time interval may be varied, and a characteristic indicative of the return of the valve to the original position may be detected based on a comparison of the pulses. | 01-01-2009 |
20090012696 | Fuel Injection Control Method - The purpose of the invention is to improve responsibility of an engine with common rail system at the time of starting and to reduce whole vibration of a plurality of engines. With regard to fuel injection control method controlling fuel injection to a plurality of cylinders of an engine | 01-08-2009 |
20090012697 | Vehicle and Control Device and Control Method for the Same - A motorcycle includes a fuel supply device that supplies fuel to an intake passage, an ECU that controls an opening/closing valve that opens and closes the intake passage, an exhaust gas passage, a catalyst disposed inside the exhaust gas passage, and a switch of an engine. When the engine rotation speed is equal to or more than a determined rotation speed when the switch is turned off, the opening/closing valve is switched on to close the intake passage. When the engine rotation speed is less than the determined rotation speed, the opening/closing valve is switched off to open the intake passage. Thermal degradation of a catalyst is thereby inhibited and electric power consumption is reduced when an engine is turned off. | 01-08-2009 |
20090012698 | Gas-Fueled Internal Combustion Engine and Control Method for Gas-Fueled Internal Combustion Engine - In a gas-fueled internal combustion engine, an ignition device ( | 01-08-2009 |
20090018749 | Method for operating an internal combustion engine - In an internal combustion engine, gasoline is injected directly into a combustion chamber and ignited by auto-ignition. The characteristics map range within which fuel is ignited by auto-ignition is enlarged by supercharging the internal combustion engine. | 01-15-2009 |
20090018750 | FUEL INJECTION FOR SMALL ENGINES - The present invention is a fuel injection system for small engines in which the fuel injection system takes the place of traditional carburetors and provides the engine with air, fuel and spark control. The fuel injection system is comprised of an electronic control unit (ECU) coupled with a throttle body, which has an integrated fuel injector. The ECU controls the amount of air that enters a cylinder by controlling the throttle plate, and the ECU controls the amount of fuel entering the air flow by controlling the injector. This fuel injection system offers to smaller engines the many advantages of fuel injected engines over carbureted engines such as increased fuel economy, better cold starting capabilities, lower outputs of harmful emissions and lower engine operating temperatures. | 01-15-2009 |
20090018751 | CONTROLLING CYLINDER MIXTURE AND TURBOCHARGER OPERATION - A method for controlling differences in exhaust gas residual amount for a two cylinder bank engine having at least one turbocharger is presented. In one example, the description includes a method for adjusting valve timing to reduce cylinder exhaust gas residual variation. | 01-15-2009 |
20090018752 | METHOD FOR CONTROLLING A MOTOR VEHICLE USING A NETWORK OF NEURONES - Disclosed is a method which can detect an endotoxin derived from a gram negative bacterium in a sample in which it has been difficult to detect or quantify the endotoxin accurately or the like by the method described in the Handbook of the Japanese Pharmacopoeia, 14th ed., Hirokawa Publishing Co., 2001:B-63. A test method for an endotoxin using a lysate reagent comprising the step of adding the lysate reagent to a sample in the presence of albumin and/or globulin and then performing the determination. | 01-15-2009 |
20090018753 | SYSTEM AND METHOD FOR A VOLUMETRIC EFFICIENCY MODEL FOR ALL AIR INDUCTION CONFIGURATIONS - A system and method for controlling an engine involves providing a model for volumetric efficiency. The model recognizes that volumetric efficiency (VE) has stronger dependency on intake pressure than on exhaust pressure. The model allows tuning of the relative importance of intake pressure to exhaust pressure, specifically, by reducing the relative importance of the exhaust pressure to intake pressure in the composite volumetric efficiency load variable. The model provides for a calculation where the exhaust pressure term of the engine pressure ratio is de-rated through the use of an exponent less than one. | 01-15-2009 |
20090018754 | INTAKE AIR AMOUNT CONTROL APPARATUS FOR ENGINE AND CONTROL METHOD THEREOF - The present invention provides an intake air amount control apparatus for an engine and a control method of an intake air amount of an engine, in which, when the atmospheric pressure exceeds a threshold value, a target lift amount of an intake valve is determined based on a target intake air amount and an electronically controlled throttle is controlled to generate a target boost pressure. On the other hand, when the atmospheric pressure does not exceed the threshold value because of a vehicle traveling at a high altitude, the target lift amount of the intake valve is fixed to a maximum lift amount and the opening angle of the electronically controlled throttle is determined in response to the target intake air amount. Consequently, an actual intake air amount is controlled to be brought to the target intake air amount thereby generating negative pressure necessary for exhaust gas recirculation. | 01-15-2009 |
20090018755 | CONTROLLER FOR DIRECT INJECTION ENGINE - When an engine is at starting or at cold state, a closing time of an exhaust valve is set before an intake top dead center to close the exhaust valve early. An exhaust residual gas is compressed by a cylinder to raise an inner cylinder temperature. A pre-fuel injection is performed from a time of closing the exhaust valve to a time of the intake top dead center in such a manner that the pre-injected fuel is combusted to raise the inner cylinder temperature. This increase in temperature expedites an atomization of fuel injected at a main fuel injection. A wet amount of fuel is reduced and HC emission is also reduced. | 01-15-2009 |
20090024299 | System and Method for Controlling Fuel Injection - The operation of a fuel injector for an internal combustion engine is controlled, wherein the fuel injector has an on time comprising a pull-in time during which injector current increases to a pull-in current followed by a hold time during which the injector current is limited to a hold current that is less than the pull-in current. A control circuit receives a pressure signal from a pressure sensor that corresponds to a pressure of fuel supplied to the fuel injector for injection into the engine, correlates the pressure signal with fuel pressure, and decreases the pull-in time with increasing fuel pressure. | 01-22-2009 |
20090024300 | Airflow estimation method and apparatus for internal combustion engine - A method of estimating an air charge in at least one combustion cylinder of an internal combustion engine includes calculating cylinder mass air flow based upon a modified volumetric efficiency parameter; and calculating the intake throttle mass air flow based upon a throttle air flow discharge parameter and a fuel enrichment factor. Three models including a mean-value cylinder flow model, a manifold dynamics model, and a throttle flow model are provided to estimate the air charge in the at least one combustion cylinder and to control delivery of fuel to the fuel delivery system. | 01-22-2009 |
20090024301 | METHOD AND APPARATUS FOR SYNCHRONOUS SWITCHING OF FUEL INJECTION CONTROL SIGNALS - An engine management and fuel delivery system allows an internal combustion engine to operate on liquid fuel such as gasoline, ethanol or a blend thereof, or compressed natural gas (CNG). A first set of fuel injectors is configured to deliver liquid fuel to the cylinders. A second set of fuel injectors is configured to deliver natural gas to the cylinders. An electronic controller is configured to generate fuel injection signals for one of the sets of injectors. An injector selector is configured to direct such fuel injection signals to either the first set of fuel injectors or the second set of fuel injectors based on a fuel type command. The fuel type command is indicative of a desired fuel type selected from either liquid fuel or CNG fuel. The fuel type command is synchronized in accordance with an engine crankshaft position signal in order to coordinate the switchover, for each one of the fuel injection signals, one by one, as each fuel injection event is completed. | 01-22-2009 |
20090024302 | Procedure for the operation of an internal combustion engine - Procedure for the operation of an internal combustion engine, particularly a gasoline engine with direct gasoline injection and controlled self-ignition, whereby the internal combustion engine ( | 01-22-2009 |
20090024303 | METHOD FOR DETERMINING THE COMPOSITION OF A FUEL MIXTURE - The invention concerns a method for determining the composition of a fuel mixture from a first and at least a second fuel for operating a combustion engine, whereby the fuel mixtures of different compositions require various air/fuel ratios to achieve a stoichiometric combustion. Thereby it is provided that the air volume that has been delivered to the combustion engine, the fuel quantity that has been delivered and the oxygen content in the exhaust gas of the combustion engine are determined during one or several stationary operating phases of the combustion engine during one or several measuring phases, and in that the composition of the fuel mixture is determined from these values. The procedure allows an accurate and reliable determination of the composition of a fuel mixture for combustion engines that are operated in flex-fuel-mode. | 01-22-2009 |
20090024304 | CONTROL APPARATUS FOR AN INTERNAL COMBUSTION ENGINE - A control apparatus for an internal combustion engine can learn an alcohol concentration of fuel in a fuel tank according to air fuel ratio feedback control, and accurately calculate, even upon interruption of learning, an alcohol concentration in an injector by estimating an alcohol concentration change delay from the fuel tank to the injector. The alcohol concentration in the fuel tank is estimated based on an air fuel ratio correction amount calculated from an air fuel ratio detected. A delay behavior of an alcohol concentration change until the fuel in the fuel tank reaches the injector is estimated. The alcohol concentration of fuel supplied to the engine is calculated from the estimated alcohol concentration in the fuel tank and the estimated delay behavior. An alcohol concentration correction coefficient is calculated based on the alcohol concentration, and an amount of fuel supplied to the engine is corrected by the correction coefficient. | 01-22-2009 |
20090024305 | ENGINE CONTROL METHOD AND ENGINE CONTROL SYSTEM - An engine control method and an engine control system that can inhibit the emission of NOx and reduce noise are provided. An engine control method in which an engine | 01-22-2009 |
20090024306 | Fast Burn and High Compression Ratio Fuel Management System for Minimization of Ethanol Consumption in Ethanol Boosted Gasoline Engines - Fuel management system for a spark ignition gasoline engine. The system includes a gasoline engine, a source of gasoline, a source of a second liquid fuel and a means for introducing gasoline into the cylinders of the engine. Injectors directly inject the second liquid fuel into the cylinders of the engine and a fuel management control system controls injection of the second fuel into the cylinder so that it is provided in an amount needed to prevent knock as torque increases or other conditions require. A means for providing fast burn is provided. | 01-22-2009 |
20090030587 | VEHICLE-MOUNTED ENGINE CONTROL APPARATUS - In an vehicle-mounted engine control apparatus according to the present invention, a restart inspection means, which is simpler than an activation inspection means, is provided, and a means to be applied is selected by an initialization determination means. The contents of the restart inspection are limited to malfunction items detected by a periodic code inspection means during driving of the vehicle. As a result, the time that is required to restart a microprocessor when a malfunction occurs is shortened. | 01-29-2009 |
20090030588 | CONTROLLER FOR INTERNAL COMBUSTION ENGINE - An ignition timing is established according to alcohol concentration of fuel detected by an alcohol concentration sensor. In a torque control where a throttle opening is controlled in such a manner that an estimated torque follows an target torque, when obtaining the estimated incylinder filling air quantity, the throttle opening is varied by correcting the estimated incylinder filling air quantity according to the detected alcohol concentration. Thereby, the variation in torque due to the correction of the ignition timing according to the alcohol concentration can be compensated by the variation in torque due to the correction of the estimated incylinder filling air quantity (the throttle opening). The variation in output torque due to difference of the alcohol concentration of the fuel is decreased. | 01-29-2009 |
20090030589 | CONTROL APPARATUS OF INTERNAL COMBUSTION ENGINE AND CONTROL METHOD OF INTERNAL COMBUSTION ENGINE - A control apparatus of an internal combustion engine in which a plurality of cylinders is divided into a first cylinder group ( | 01-29-2009 |
20090037076 | METHOD OF INJECTING FLUID, A METHOD OF AND APPARATUS FOR CONTROLLING INJECTION OF FLUID, AND AN INTERNAL COMBUSTION ENGINE - In a method of injecting a fluid with a liquid-to-gas phase transition, the fluid is injected via a specified path of a change in an isobaric specific heat capacity per volume [Cp/V] of the fluid, the specified path leading from a temperature-pressure condition (i) to a temperature-pressure condition (ii). The condition (i) realizes an equality [Cp/V]=[Cp/V]L, where [Cp/V]L denotes an isobaric specific heat capacity per volume of the fluid in the liquid phase. The temperature-pressure condition (ii) realizes an equality [Cp/V]=[Cp/V]J, where [Cp/V]J denotes an isobaric specific heat capacity per volume of the fluid at timing of injection. The value [Cp/V]J is less than the value [Cp/V]L and included in a temperature-pressure region extending in close proximity to a high-temperature side of a temperature-pressure region corresponding to a temperature-pressure condition (iii) that realizes an isobaric specific heat capacity per volume [Cp/V]C greater than the value [Cp/V]L. | 02-05-2009 |
20090037077 | COMBUSTION CONTROL OF INTERNAL COMBUSTION ENGINE - A controller ( | 02-05-2009 |
20090037078 | AIR-FUEL RATIO CONTROLLER FOR INTERNAL COMBUSTION ENGINE - In a system where an air-fuel ratio feedback correction amount is learned when its variation width is within a stable determination value, the stable determination value is set at larger value when a deviation amount of the correction amount becomes larger When the air-fuel ratio feedback correction amount is rapidly changed after the learning is completed, the stable determination value is increased to moderate the learning condition and accelerate the learning speed (update speed of the learning value). Hence, the air-fuel ratio feedback correction amount is immediately learned. Furthermore, when a behavior of the airfuel ratio feedback correction amount is stable, the stable determination value is made small to avoid an erroneous learning of the air-fuel ratio feedback correction amount. | 02-05-2009 |
20090037079 | Air-fuel ratio control apparatus and method for an internal combustion engine - When an internal combustion engine including a plurality of cylinders is operating steadily, an index value relating to an actual hydrogen content in exhaust gas downstream of a portion where exhaust passages from the cylinders merge, and upstream of a catalyst is detected. When an index value relating to the actual hydrogen content in the exhaust gas is larger than a determination index value relating to a hydrogen content corresponding to a permissible limit of air-fuel ratio variation, it is determined that there is abnormal air-fuel ratio variation between the cylinders. | 02-05-2009 |
20090037080 | Pressure-maintaining function in a fully hybrid drive - A method for maintaining and/or adjusting a system pressure in a fuel injection system of an internal combustion engine, in which the internal combustion engine is a part of an hybrid power train, which includes in addition at least one further drive. A system pressure in a reservoir element of the fuel injection system is monitored using a pressure sensor. In operating modes in which the internal combustion engine is shut down and/or is separated from the hybrid power train, the maintaining or the adjusting of the system pressure takes place via a pressure-regulating valve. The activation of the pressure-regulating valve takes place directly or indirectly via a control unit or a vehicle control unit or a clutch control unit. | 02-05-2009 |
20090043477 | Ejector System for Vehicle - An ejector system controls the idle speed of an internal combustion engine by controlling an electric throttle valve system that adjusts the flow-rate of the intake air to be supplied to the internal combustion engine, and includes an ejector which generates a negative pressure of which the absolute value is larger than the absolute value of a negative pressure to be introduced from an intake manifold, a vacuum control valve which causes the ejector to operate or causes the ejector to stop operating, and an ECU that controls the vacuum switching valve. With the ejector system, even if the ejector is caused to operate or caused to stop operating, it is possible to appropriately suppress fluctuations in the idle speed, and appropriately obtain a negative pressure. | 02-12-2009 |
20090043478 | Method and device for monitoring an internal combustion engine with a duel fuel injection system - In a dual fuel injected internal combustion engine, the primary injected fuel is gasoline with a secondary fuel injected consisting of Ethanol, Methanol, a combination of Ethanol and Methanol or a mixture of either fuel with water. The method and device claimed is an electronic controller that monitors the flow rate and or effect of the secondary injected fuel though sensory input signals and outputs a control signal to an external device which will reduce the internal combustion engines power output to a safe level in the event that the flow of the secondary fuel injected is not within a predetermined specified range and or the effect of the secondary fuel injected is not within a predetermined range as detected by an automotive inlet air temperature sensor or automotive knock sensor there by preventing damage to the internal combustion engine from detonation or pre-ignition of the primary air fuel charge as a result of reduced quantity of secondary injected fuel. The external control device could reduce timing of the internal combustion engine spark event or reduce boost pressure of a forced induction system or increase fueling of the primary injected fuel upon receiving an output electrical signal from claimed monitoring device. | 02-12-2009 |
20090043479 | INTERNAL COMBUSTION ENGINE - An internal combustion engine ( | 02-12-2009 |
20090043480 | FLUID INJECTION DEVICE - A fluid injection device includes a fluid supply unit that accommodates and supplies fluid, a fluid injection unit that injects fluid supplied from the fluid supply unit, and a driving waveform generating device which is equipped with at least one adjusting device, a one-input multiple-control parameter changing unit that simultaneously changes plural control parameters for determining a fluid injection condition of the fluid injection unit on the basis of a signal from the at least one adjusting device, and a driving waveform generator that generates and outputs a driving waveform of the fluid injection unit on the basis of the control parameters set by the one-input multiple-control parameter changing unit. | 02-12-2009 |
20090043481 | AIR-FUEL RATIO CONTROL DEVICE - An air-fuel ratio control device is provided for controlling the air-fuel ratio of an engine. The device includes an exhaust passage having a main catalytic converter and a bypass passage having a bypass catalytic converter, the bypass passage diverging from the exhaust passage at an upstream junction and rejoining the exhaust passage at a downstream junction. A valve mechanism disposed in the exhaust passage between the upstream junction and the downstream junction moves between a closed state and an open state. During a predetermined period of time after the valve mechanism opens to permit flow in the exhaust passage, the air-fuel ratio of the engine is controlled based on a signal from a first air-fuel ratio sensor in the bypass passage using a low response correction value that is less than a normal response correction value that would be used when the valve mechanism is closed. | 02-12-2009 |
20090043482 | Method for controlling an internal combustion engine - A method for controlling an internal combustion engine having a common rail system together with individual accumulators. A rotational speed-control deviation (dn) is determined from a target rotational speed (nSL) that represents the set point for an outer control loop to control the rotational speed, as well as from an actual rotational speed (nIST). A target torque (MSL) is determined from the rotational speed-control deviation (dn) via a rotational speed controller as a master controller. A target injection duration (SD(SOLL)) is determined from the target torque (MSL). The target duration injection (SD(SOLL)) represents the set point for an inner control loop for controlling cylinder-specific injection duration. An injection duration deviation is determined from the target injection duration (SD(SOLL)) and from an actual injection duration. A correcting variable is determined from the injection duration deviation via an injection duration controller as a follow-up controller, and an injection duration is determined from the correcting variable and the target injection duration for activating the injectors. | 02-12-2009 |
20090048758 | Apparatus for Adjusting Valve Timing When Starting Internal Combustion Engine - An internal combustion engine includes a plurality of variable valve timing mechanism (VVTs), each corresponding to one of a pair of banks. When an abnormality is detected in a VVT corresponding to one of the banks, the valve closing timing of the intake valves during starting of the engine in the bank corresponding to the normally functioning VVT is adjusted to valve timing that increases the power generated by combustion compared to the engine power generated during normal starting of the engine. Specifically, the valve closing timing of the intake valves during starting of the engine in the bank corresponding to the normally functioning VVT is brought closer to the bottom dead center of the intake stroke of the engine. As a result, deterioration of the starting performance of the engine due to the abnormality of the VVT is compensated for. | 02-19-2009 |
20090048759 | PHASE AND FREQUENCY ERROR BASED ASYMMETRICAL AFR PULSE REFERENCE TRACKING ALGORITHM USING THE PRE-CATALYST O2 SENSOR SWITCHING OUTPUT - A fuel control system of an engine system comprising 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 a dither signal. The control module determines a fuel command based on the pre-catalyst EGO signal and the dither signal. | 02-19-2009 |
20090048760 | METHOD FOR CONTROLLING COMBUSTION MODE TRANSITIONS IN AN INTERNAL COMBUSTION ENGINE - An internal combustion engine is selectively operative in one of a plurality of combustion modes. A method for controlling the engine includes commanding the engine operation to transition from a first combustion mode to a second combustion mode. Engine valve operation is commanded to a desired valve overlap and valve overlap is monitored. Engine operation is changed to the second combustion mode when the engine valve overlap achieves a predetermined range or threshold. | 02-19-2009 |
20090048761 | METHOD FOR CONTROLLING ENGINE INTAKE AIRFLOW - An internal combustion engine includes a controllable throttle and controllable engine valves and is selectively operative in one of a plurality of combustion modes. An engine control method includes monitoring engine operation, determining a desired air flow, estimating a cylinder air charge, and estimating an intake air partial pressure. The throttle control device and engine valves are controlled based upon the intake air partial pressure and the cylinder air charge to achieve the desired air flow. | 02-19-2009 |
20090048762 | METHOD FOR CONTROLLING CYLINDER CHARGE IN A HOMOGENEOUS CHARGE COMPRESSION IGNITION ENGINE - An internal combustion engine includes a controllable throttle control device and controllable engine valves. A method for controlling the engine includes monitoring engine operation and an exhaust gas feedstream, and estimating a cylinder charge temperature based upon the monitored engine operation. Oxygen concentration of the cylinder charge is determined based upon the monitored exhaust gas feedstream, and preferred oxygen concentration of the cylinder charge and preferred cylinder charge temperature are determined. The engine valves are controlled based upon the preferred oxygen concentration of the cylinder charge, the preferred cylinder charge temperature, the oxygen concentration of the cylinder charge, and the estimated cylinder charge temperature. | 02-19-2009 |
20090048763 | Control Apparatus and Control Method of an Internal Combustion Engine - During a fuel cut, a recommended reactivated cylinder and a reactivatable cylinder are determined based on the stopped positions of an intake valve and an exhaust valve (step | 02-19-2009 |
20090055076 | Gas-Mixture-State Estimation Apparatus for Internal Combustion Engine and Emission-Generation-Amount Estimation Apparatus - This apparatus equally divides an injection period TAU into three periods; i.e., front, intermediate, and rear periods, and assumes that first injection (mass Q( | 02-26-2009 |
20090055077 | Operating Method and Device for a Gas-Operated Internal Combustion Engine - The invention relates to an operating method and to a device for a gas-driven internal combustion engine. According to the invention, the pressure in a gas injection system is adapted to the operational state of the internal combustion engine. A higher pressure is adjusted in the gas injection system during a higher charge of the internal combustion engine. Said higher pressure enables a higher volume flow through the gas injection valves associated with the gas injection system. The power produced by the internal combustion engine can be optimized. A lower pressure in the gas injection system is adjusted in the event of a lower charge or if the internal combustion engine is switched off. The lower pressure emits lower pollutant emissions which are produced by the internal combustion engine. The invention is characterized by a bi-directional interface between a control device and a pressure reducer or pressure controller. | 02-26-2009 |
20090055078 | DIESEL TRANSIENT COMBUSTION CONTROL BASED ON INTAKE CABON DIOXIDE CONCENTRATION - An engine control module includes a target intake carbon dioxide (CO2) module that determines a target intake CO2 concentration. An intake CO2 estimation module estimates an actual intake CO2 concentration. The engine control module adjusts fuel injection based on the target intake CO2 concentration and the actual intake CO2 concentration. | 02-26-2009 |
20090055079 | ABNORMALITY DIAGNOSIS APPARATUS FOR INTERNAL COMBUSTION ENGINE - An abnormality diagnosis apparatus for an internal combustion engine includes an abnormality diagnosis unit, an other fuel contamination determination unit, and a misdiagnosis prohibition unit. The abnormality diagnosis unit determines whether there is an abnormality in a fuel system based on an output from an exhaust gas sensor mounted on an exhaust duct of the internal combustion engine. The other fuel contamination determination unit determines whether an other fuel contaminates a supply fuel supplied to the internal combustion engine. The misdiagnosis prohibition unit conducts one of (a) changing an abnormality determination condition for the abnormality diagnosis in the fuel system and (b) prohibiting the abnormality diagnosis in the fuel system, when the other fuel contamination determination unit determines that the other fuel contaminates the supply fuel. | 02-26-2009 |
20090055080 | METHOD AND APPARATUS FOR HEATING AT LEAST ONE INJECTOR OF AN ENGINE - An apparatus and a method that prevent sticking of a valve pin in a valve seat of an injector at low temperatures can be provided providing an engine control unit and an additional control device, wherein the engine control unit activates the additional control device, and activate the injector by the additional control device in such a way that the injector by moving its valve pin is heated and/or rendered viable. | 02-26-2009 |
20090055081 | Control System for Internal Combustion Engine - A control system for an internal combustion engine, which is capable of enhancing the accuracy of fuel control and ignition timing control even when there is a possibility that the reliability of a calculated intake air amount lowers, and enables reduction of manufacturing costs. An ECU of the control system calculates a first estimated intake air amount according to a valve lift, a cam phase, and a compression ratio, calculates a second estimated intake air amount according to the flow rate of air detected by an air flow sensor. The ECU determines a fuel injection amount according to the first estimated intake air amount when an estimated flow rate Gin_vt calculated based on an engine speed, the valve lift, the cam phase, and the compression ratio is within the range of Gin_vt≦Gin | 02-26-2009 |
20090063010 | FUEL INJECTION CONTROL DEVICE - A fuel injection control device (ECU) for controlling injection supply of fuel to a target engine has a program for sequentially sensing fuel pressure fluctuating with injection of a predetermined injector a program for detecting an injection centroid of a diagram as a profile of a transition of an injection rate of the injector at a present time based on a transition of the sequentially sensed fuel pressure, and a program for varying an injection command (injection timing) of the injector based on the detected injection centroid and an injection centroid of a predetermined basic diagram such that a relative positional relationship between the injection centroids of the diagram as the actual profile of the injection rate transition and the basic diagram becomes a relationship, in which timings of the injection centroids are close to each other. | 03-05-2009 |
20090063011 | FUEL INJECTION DEVICE AND METHOD FOR EXAMINING THE SAME - A fuel injection device includes a fuel injection valve for injecting fuel. A pressure sensor is configured to output detection signal correspondingly to pressure of the fuel. The fuel injection device further includes a storage unit for storing individual difference information, which indicates an output characteristic of the detection signal. The output characteristic is obtained by an examination. The individual difference information indicates a relationship between change in test pressure and change in detection signal. The test pressure is actually applied to the pressure sensor in the examination. The change in detection signal is attributed to the change in test pressure. | 03-05-2009 |
20090063012 | FUEL INJECTION CONTROLLER FOR INTERNAL COMBUSTION ENGINE - A common rail type fuel injection system of an engine includes: a common rail for accumulating and holding high-pressure fuel; a fuel pump for pressure-feeding fuel to the common rail; and an injector for injecting the high-pressure fuel accumulated and held in the common rail. A pressure sensor is disposed in a fuel suction pod of the injector. An ECU sequentially detects a fuel pressure varied when the injector injects the fuel and sequentially detects a fuel pressure varied when the fuel pump pressure-feeds the fuel. When the injector injects the fuel the ECU computes injection pressure by the detection values of these pressures and computes injection characteristics by the injector on the basis of the injection pressure. | 03-05-2009 |
20090063013 | FUEL INJECTION CHARACTERISTIC SENSING DEVICE AND FUEL INJECTION COMMAND CORRECTING DEVICE - A fuel injection characteristic sensing device obtains an injection characteristic of a target injector (an injector of each cylinder of a multi-cylinder engine) at each time. The device has a program for sequentially sensing fuel pressure at a sensing point corresponding to a fuel pressure sensor, which is provided at a fuel inlet of each injector, based on an output of the fuel pressure sensor. The device has a program for detecting predetermined timings (injection timings such as an injection start timing and an injection end timing) in a series of operations concerning fuel injection of the injector of each cylinder based on the sequentially sensed fuel pressure. Thus, the injection characteristic at each time including a temporal characteristic change can be obtained. | 03-05-2009 |
20090063014 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A control apparatus for an internal combustion engine, includes: a fuel injection unit; an ignition unit; a crank angle detection unit; a fuel pump; a booster unit; an ignition discharge unit; and a control unit that controls the fuel injection unit, the ignition unit, and the fuel pump, that ascertains ignition timings based on crank signals output from the crank angle detection unit, and that performs a startup control sequence that is made up of fuel injection processing, voltage boosting processing, ignition processing, and fuel supply processing. | 03-05-2009 |
20090063015 | FUEL INJECTION CONTROL APPARATUS - A fuel injection control apparatus includes: an internal combustion, engine; a fuel injection unit provided in the internal combustion engine; an intake state detection unit that detects an intake state value indicating an intake state of the internal combustion engine, and that outputs an intake state signal; and a control unit to which the intake state signal is input, that determines based on the intake state signal whether or not the internal combustion engine is on an intake stroke, and that controls the fuel injection unit so that an initial fuel injection is performed in order to start up the engine when the control unit determines that the engine is on an intake stroke. | 03-05-2009 |
20090063016 | INJECTION CONTROL DEVICE OF INTERNAL COMBUSTION ENGINE - A fuel injection control device (ECU) for controlling injection supply of fuel to an engine is applied to an injector that has a valve body formed with a fuel injection hole, a needle accommodated in the valve body for opening and closing the injection hole, and a piezoelectric element for driving the needle such that the needle reciprocates and that can continuously adjust an injection rate in accordance with an injection command signal to the piezoelectric element. The fuel injection control device senses a fuel pressure waveform indicating a transition of fuel pressure fluctuation accompanying a predetermined injection of the injector based on an output of a fuel pressure sensor and calculates an injection command signal for approximating a predetermined injection parameter concerning the predetermined injection to a reference value of the parameter based on the sensed fuel pressure waveform. | 03-05-2009 |
20090063017 | Apparatus for controlling quantity of fuel to be actually sprayed from injector in multiple injection mode - In an apparatus, an actual fuel spray characteristic obtaining unit obtains, based on an operation of a learning fuel injection instructing unit in a learning mode, an actual fuel spray characteristic of an injector relative to a variable of a target interval period within at least one section in a usable range therefor. A phase difference calculating unit calculates a phase difference between a reference fuel spray characteristic and the obtained actual fuel spray characteristic. A phase correcting unit shifts the reference fuel spray characteristic by the calculated phase difference such that the reference fuel spray characteristic is corrected to approach the obtained actual fuel spray characteristic. | 03-05-2009 |
20090070002 | Diesel Engine Control Device - In a diesel engine control device, a normal injection mode that implements normal combustion and a premixed injection mode that implements premixed combustion are set, the normal injection mode is implemented when the actual engine operating conditions are in the normal region, and the premixed injection mode is implemented when the actual engine operating conditions are in the premixed region. When one control mode is being implemented in the corresponding engine operating region, the control mode is forcibly switched to the other control mode when the engine enters a predetermined transition state. This makes it possible to switch earlier than normal, and in particular when accelerating, the desired acceleration performance can be obtained. | 03-12-2009 |
20090070003 | DEVICE FOR CONTROLLING THE OPERATING STATE OF A CATALYTIC CONVERTER OF AN EXHAUST LINE PERTAINING TO AN INTERNAL COMBUSTION ENGINE, AND ENGINE COMPRISING ONE SUCH DEVICE - A device for controlling an operating state of a catalytic converter of an exhaust line pertaining to an internal combustion engine. The device determines the temperature upstream of the catalytic converter, adds fuel to the exhaust line of the engine at the moment at which the temperature of the exhaust gas upstream of the catalytic converter corresponds to the ignition temperature of a catalytic converter with a normal operation, and controls the quantity of heat emitted by the reaction generated in the catalytic converter as a result of the addition of fuel. The addition device includes a dedicated fuel supply system arranged in the exhaust line of the engine upstream of the catalytic converter to be controlled. | 03-12-2009 |
20090070004 | Fuel Injection Controller - A fuel injection controller used for a fuel injection device that pumps high-pressure fuel to an accumulator and distributes the high-pressure fuel accumulated in the accumulator to injectors mounted in respective cylinders of an internal combustion engine calculates an input quantity and an output quantity of the fuel to and from the accumulator and monitors fuel pressure in the accumulator with a pressure sensor attached to the accumulator. The fuel injection controller has a determination device that determines whether there is a deviation between a sensing value Pcob | 03-12-2009 |
20090070005 | METHOD FOR MEASURING INITIAL HYDROCARBON CONCENTRATION IN CANISTER AND CONTROLLING FUEL INJECTION THEREBY, AND SYSTEM THEREOF - A method of measuring an initial hydrocarbon concentration in a canister includes opening a purge control valve thereby introducing hydrocarbons from the canister to a cylinder; calculating an amount of air introduced into the cylinder; and calculating the initial hydrocarbon concentration based on the amount of air. A method of controlling fuel injection includes measuring an initial hydrocarbon concentration in a canister by opening a purge control valve in a fuel cut-off mode; determining a driving state of a vehicle; calculating an air inflow to a cylinder according to the driving state of the vehicle; calculating a λ set-point according to the driving state of the vehicle; and calculating fuel injection amount based on the air inflow and the λ set-point. Also, a system for controlling fuel injection. | 03-12-2009 |
20090070006 | VALVETRAIN CONTROL SYSTEMS FOR INTERNAL COMBUSTION ENGINES WITH DIFFERENT INTAKE AND EXHAUST LEADING MODES - A valve control system for an internal combustion engine includes a valve actuation system. The valve actuation system actuates at least one of an intake valve and an exhaust valve between N open lift modes via lift control valves. The control module enables transitioning of at least one of the intake valve and the exhaust valve between the N open lift modes. The control module defines M valve leading modes that indicate whether the intake valve transitions between the N open lift modes before, during the same time period, or after the exhaust valve. The control module selectively transitions the intake valve and the exhaust valve based on a current one of the M valve leading modes. N and M are integers greater than one. | 03-12-2009 |
20090070007 | CONTROL APPARATUS FOR CYLINDER INJECTION TYPE INTERNAL COMBUSTION ENGINE - A control apparatus for a cylinder injection type internal combustion engine wherein the variable lift mechanism lessens the lift of the intake valve so as to set the time of opening the intake valve in a retarded angle position, in cold starting of the engine. The time of closing the exhaust valve is accordingly set in a retarded angle position. | 03-12-2009 |
20090070008 | Method And Apparatus For Operating A Dual Fuel Internal Combustion Engine - In an internal combustion engine that can burn two fuels, the main fuel may become unavailable, either temporarily or until the main fuel is replenished. The present apparatus determines when to fuel an engine with main fuel and secondary fuel, or secondary fuel alone. The apparatus includes a main-fuel supply system comprising a main-fuel injection valve that introduces main fuel into an engine combustion chamber; a secondary-fuel injection system comprising a secondary-fuel injection valve that introduces secondary fuel directly into the combustion chamber; a pressure sensor associated with the main-fuel supply system for determining injection pressure inside the main-fuel injection valve; and an electronic controller in communication with the pressure sensor and programmable to separately command actuation of the secondary-fuel and the main-fuel injection valve when injection pressure is greater than a predetermined threshold, and to otherwise command actuation of the secondary-fuel injection valve and not the main-fuel injection valve. | 03-12-2009 |
20090070009 | METHOD FOR DETERMINING THE TRAPPING EFFICIENCY AND/OR A SCAVENGING AIR MASS OF AN INTERNAL COMBUSTION ENGINE - A method for determining the trapping efficiency and/or a scavenging air mass of an internal combustion engine has the steps of: for operating points (BP), in which a scavenging of a cylinder of the internal combustion engine with air takes places, an efficiency curve (η | 03-12-2009 |
20090070010 | Throttle Valve Control Apparatus of an Internal Combustion Engine - The invention provides a throttle valve control apparatus of an internal combustion engine having at least a first cylinder group (B | 03-12-2009 |
20090070011 | Control for an internal-combustion engine - A control for an engine having a variable valve actuation mechanism is provided. A map indicating a correlation among a rotational speed, a gauge pressure of an intake manifold, a lift amount of an intake valve, a phase of the intake valve and an intake air amount of the engine under a reference condition of a predetermined reference atmospheric pressure and a predetermined reference intake air temperature is defined. An intake air amount for the reference condition is determined as a reference intake air amount by referring to the map based on a current rotational speed, a current gauge pressure, a current lift amount and a current phase. The reference intake air amount is corrected with a ratio between an air density under a current condition of a current atmospheric pressure, a current intake air temperature and a current gauge pressure and an air density under the reference condition to calculate an intake air amount for the current condition. | 03-12-2009 |
20090070012 | Method and Device for Operating an Internal Combustion Engine - In a first operating state, the fuel metering of one of the cylinders is controlled in first metering pulses with the same pulse characteristic during a respective one working cycle, and the metering of fuel into the other cylinders by at least one second metering pulse with a different pulse characteristic. The first pulse number and characteristic is predefined such that the same fuel mass should be metered based on an assumed injection valve characteristic as with the one second metering pulse. Depending on the measurement signal, a correction value for the one cylinder is determined. To meter the fuel based on the assumed injection valve characteristic, a single first metering pulse would be generated during a respective one working cycle. The correction value for the one cylinder is used during the rest of the operation to adapt the first metering pulse in the second operating state. | 03-12-2009 |
20090076705 | POWER MODULATED, DUAL FUEL, SMALL DISPLACEMENT ENGINE CONTROL SYSTEM - An engine capitalizes on the advantages of alternative fuels such as ethanol, E-85, and other alcohols, with a small displacement engine, two cylinders or more, and at least a divided fuel tank or alternatively two tanks. An electronic engine control module selects the fuel for operating conditions and delivers the fuel through separate injection systems. The module selects unleaded gasoline for starting, light load and light cruising conditions. Upon greater demands for engine power, the module adds or switches entirely to a secondary fuel such as alcohol, ethanol, E-85 or other ethanol/gasoline blends and reduces or eliminates the introduction of gasoline fuel. The secondary fuel provides more power than unleaded gasoline, thus reducing the engine displacement required for operating a vehicle under a variety of loads. The present invention seeks a substantial engine power increase, reduction in engine detonation, improved cold starting, re-evaluation of turbochargers, a decrease in gasoline consumption, and gasoline as the default fuel. | 03-19-2009 |
20090076706 | Control Device For Internal Combustion Engine And Straddle Type Vehicle Provided With The Same - Startability of an internal combustion engine using a mixed fuel of gasoline and alcohol is improved. An intake passage of the engine has a main flow channel provided with a throttle valve and a bypass flow channel for bypassing the throttle valve. A bypass quantity adjusting mechanism adjusts the bypass quantity in the bypass flow channel. A control device detects or estimates the mixing ratio of alcohol of the fuel and controls the bypass quantity adjusting mechanism so that a bypass quantity before a first explosion is smaller than a bypass quantity after the first explosion when the mixing ratio of alcohol is equal to or more than a predetermined value. | 03-19-2009 |
20090076707 | FUEL INJECTION SYSTEM WITH INJECTION QUANTITY LEARNING FUNCTION - A fuel injection system for an internal combustion engine which is designed to determine an instantaneous engine speed in a cycle of, for example, 30° CA of the engine to learn an actual injection quantity that is the quantity of fuel actually sprayed from a fuel injector. The system filters the instantaneous engine speed using a band-pass filter to extract a cyclic component which varies in synchronism with an engine operating cycle to produce an engine speed change which has arisen from the spraying of fuel into the engine from which unwanted noise components are removed and uses it to determine the actual injection quantity. | 03-19-2009 |
20090076708 | Method and device for integrative control of gas engine - An integrative control method and device for controlling gas engines is proposed which is improved load responsivity of the engine in transient operation. The control method comprises a speed control process for controlling engine rotation speed by controlling the fuel gas flow control valve based on deviation of actual engine rotation speed from a target command value of rotation speed, and an air fuel ratio control process for controlling air fuel ratio of fuel-air mixture by controlling throttle valve opening based on deviation of the actual mixture flow rate from the command value of mixture flow rate, whereby at least either fuel gas flow correction or fuel-air mixture flow correction is performed when time-series variation of input signals relating to performance change of the gas engine exceeds a reference range determined beforehand, the fuel gas flow correction being performed by correcting control variables of the fuel gas flow control valve in the speed control process, and the mixture flow correction being performed by correcting opening of the throttle valve in the air fuel ratio control process. | 03-19-2009 |
20090076709 | Method and device for integrative control of gas engine - An integrative control method and device for controlling gas engines is proposed which load responsivity of the engine is improved while maintaining air fuel ratio control and stable control is performed when fuel gas of different calorific value is used. The control method comprises a speed control process for controlling engine rotation speed by controlling the fuel gas flow control valve based on deviation of actual engine rotation speed from a target command value of rotation speed, and an air fuel ratio control process for controlling air fuel ratio of fuel-air mixture by controlling throttle valve opening based on deviation of the actual mixture flow rate from the command value of mixture flow rate, whereby correction of theoretical air fuel ratio in accordance with exhaust temperature is performed in the air fuel ratio control process, the correction being done to correct the theoretical air fuel ratio used to calculate the command value of fuel-air mixture flow rate in accordance with exhaust temperature based on deviation of actual exhaust temperature from target exhaust temperature prescribed for various engine rotation speeds and load factors. | 03-19-2009 |
20090076710 | Engine Starting for Engine Having Adjustable Valve Operation - A method for controlling an engine including at least a first cylinder having a first piston and a second cylinder having a second piston, at least one of said first and second cylinders having at least an adjustable valve, the method comprising before engine rotation: closing electrically actuated valves in at least the first and the second cylinder; fueling at least said first cylinder with a first fuel amount based on a position of the first piston and said second cylinder with a second fuel amount based on a position of the second piston; performing a first spark in at least one of said first cylinder and said second cylinder; and applying a starter motor to assist engine starting rotation; after engine rotation, firing each cylinder of the engine in a sequential firing order without changing a number of strokes in any cylinder of the engine. | 03-19-2009 |
20090076711 | Control method for a direct injection system of the common-rail type provided with a shut-off valve for controlling the flow rate of a high-pressure fuel pump - A control method of a direct injection system of the common-rail type; the control method contemplates: feeding the pressurized fuel to a common rail by means of a high-pressure pump which receives the fuel through a shut-off valve; cyclically controlling the opening and closing of the shut-off valve for choking the flow rate of fuel taken in by the high-pressure pump; driving the shut-off valve synchronously with respect to the mechanical actuation of the high-pressure pump by means of a driving frequency of the shut-off valve having a constant integer synchronization ratio, predetermined according to the pumping frequency of the high-pressure pump; estimating a perturbation intensity of the fuel pressure inside the common rail; and varying the phase of the commands of the shut-off valve with respect to the phase of the mechanical actuation of the high-pressure pump if the perturbation intensity of the fuel pressure inside the common rail is higher than a predetermined threshold value. | 03-19-2009 |
20090076712 | Device for the control of an internal combustion engine operable with liquid and/or gaseous fuel - Presented is a device for controlling an internal combustion engine operable with at least on of liquid and gaseous fuel. The device includes a rotational speed controller that outputs a control signal, which is dependent on the actual rotational speed of the engine and which influences the power output of the engine. The control signal includes a dimension for the total power to be output by the engine. The device further includes a dividing device configured for receiving the dimension, dividing the dimension for the total power according to a predetermined ratio into a contribution of the liquid fuel and a contribution of the gaseous fuel, and generating and outputting a second and a third control signal. The second control signal influences the liquid fuel quantity injected into the engine per unit time and the third control signal influences the gas fuel quantity injected into the engine per unit time. | 03-19-2009 |
20090076713 | Gaseous fuel engine charge density control system - A spark ignited gaseous fuel engine including an exhaust gas recirculation system and method for operating a gaseous fuel engine are provided. The exhaust gas recirculation system has an adjustable flow and is operable to supply exhaust gas to at least one engine cylinder. The engine further includes means for determining a value indicative of a charge density of a combustion mixture that includes gaseous fuel, air and exhaust gas supplied to the at least one cylinder, and adjusting a flow quantity through the exhaust gas recirculation system based at least in part on the value. The charge density may permit the controller to set a NO | 03-19-2009 |
20090076714 | FUEL INJECTION CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A fuel injection control apparatus is provided with a fuel injection nozzle, a crank angle detector, a timer, and a control computer. The crank angle detector outputs a pulse signal corresponding to each tooth portion of a signal rotor and a pulse signal corresponding to a tooth missing portion. The control computer sets, as a fuel injection timing, a point of time at which a predetermined standby time period has elapsed from a point of time at which a reference tooth portion is detected. The control computer recognizes a tooth missing zone based on the pulse signal corresponding to the tooth missing portion. The control computer determines whether the fuel injection timing is set in a specific section in the tooth missing zone. When the fuel injection timing is set in a section outside the specific section, the control computer sets, as the predetermined standby time period, a remaining time period shorter than one inter-signal time period. In contrast, when the fuel injection timing is set to the specific section, the control computer sets, as the predetermined standby time period, a time period obtained by adding one or more inter-signal time periods to the remaining time period. | 03-19-2009 |
20090082937 | Fuel injection control device for engine - A fuel injection control device for an engine including a cylinder injector and an air intake passage injector is provided. The device changes a fuel injection style, from a compression stroke cylinder injection by the cylinder injector which is executed from a predetermined instant immediately after the beginning of the cold start of engine until a predetermined period has passed, to the combination of an air intake passage injection by the air intake passage injector, an intake stroke cylinder injection and a compression stroke cylinder injection by the cylinder injector which is executed after the predetermined period has passed. During the cold start of engine, the favorable combustion stability is obtained by the compression stroke cylinder injection before the predetermined period has passed, and an amount of HC is reduced after the passage of the predetermined period, promoting warming-up of catalyst. | 03-26-2009 |
20090082938 | Control Method of Exhaust Gas Purification System and Exhaust Gas Purification System - An exhaust gas purification system has an exhaust gas purification device ( | 03-26-2009 |
20090082939 | Control Apparatus for Cylinder Injection Internal Combustion Engine with High-Pressure Fuel Pump - There is provided a control apparatus for a cylinder injection internal combustion engine which suppresses fuel pulsation caused by cam phase deviation and thereby prevents internal combustion engine exhaust deterioration, so that the reliability of a high-pressure fuel system using a high-pressure fuel pump is improved. The control apparatus for a cylinder injection internal combustion engine includes a high-pressure fuel pump that raises the pressure of fuel and discharges the fuel to a fuel rail, and a fuel pressure sensor that detects a pressure of fuel stored in the fuel rail. The control apparatus controls the high-pressure fuel pump based on the fuel pressure detected by the fuel pressure sensor. The control apparatus further includes a cam phase estimation means for estimating a phase of a cam shaft of the internal combustion engine which drives the high-pressure fuel pump, and based on the phase estimation value calculated by the cam phase estimation means, corrects the amount of controlling the high-pressure fuel pump. | 03-26-2009 |
20090082940 | INTERNAL COMBUSTION ENGINE CONTROL DEVICE - A control device of an internal combustion engine calculates a rotation increase amount caused in connection with a small injection based on a sensing value of a crank angle sensor and calculates an actual torque increase amount based on the calculated rotation increase amount. The control device senses fuel pressure fluctuation caused in connection with the small injection with a pressure sensor and calculates an actual injection quantity based on the sensed fuel pressure fluctuation. Then, the control device calculates a combustion rate by comparing the actual torque increase amount and the actual injection quantity and changes data (an injection pattern) of an injection control map in accordance with the combustion rate to achieve desired output torque and emission state. | 03-26-2009 |
20090082941 | CONTROLLER FOR FUEL INJECTION SYSTEM - A fuel pressure sensor is provided to each fuel injector respectively and is disposed in a fuel passage between the accumulator and a fuel injection port of the fuel injector in such a manner as to be close to a fuel injection port relative to the accumulator. Output values of a plurality of fuel pressure sensors are acquired, and an average of the output values is computed. The output values are corrected in such a manner as to agree with the average. | 03-26-2009 |
20090082942 | APPARATUS FOR AND METHOD OF CONTROLLING FUEL INJECTION OF INTERNAL COMBUSTION ENGINE - A first fuel injection valve is arranged in an intake port of an internal combustion engine and also a second fuel injection valve capable of exhibiting a spray property having a vaporization characteristic higher than that of the first fuel injection valve is arranged on the intake air flow downstream side of the first fuel injection valve, the fuel injection is performed by the second fuel injection valve at a cranking time, and after a predetermined time has elapsed from completion of the cranking, the share for the first fuel injection is gradually increased to thereby change-over the fuel injection to that by the first fuel injection valve. Further, at a time of the engine acceleration, a main fuel injection amount is injected by the first fuel injection valve and a fuel injection amount equivalent to an increasing amount for acceleration is injected by the second fuel injection, thereby eventually improving the fuel consumption as well as the exhausting performance. | 03-26-2009 |
20090082943 | ENGINE CONTROL SYSTEM DESIGNED TO MANAGE SCHEDULE OF ENGINE CONTROL TASKS - An engine control system for managing a schedule of execution of engine control tasks is provided. The system works to schedule execution of the engine control tasks upon receipt of requests to initiate the engine control tasks. The system determines a sequence of execution of the engine control tasks and allocates execution times for which the engine control tasks are to be executed so as to provide chances of execution of the engine control task as evenly as possible. The system may determine required time-sharing ratios of the engine control tasks based on statuses of execution of the engine control tasks. | 03-26-2009 |
20090082944 | Process for controlling an internal combustion engine - A process for controlling an internal combustion engine, in which an actual position of a reciprocating gas valve is detected by a position sensor, a positional deviation is calculated from the actual position and a zero position, a total length change of the reciprocating gas valve is calculated as a function of the temperature of the reciprocating gas valve, a valve clearance of the reciprocating gas valve is determined from the positional deviation and the total length change, and the further operation of the internal combustion engine is determined on the basis of the valve clearance. | 03-26-2009 |
20090088944 | Electrical Assist for Reducing Emissions and Torsion Response Delay in a Hybrid Electric Vehicle - In a hybrid electric vehicle powered by an internal combustion engine that produces torque and an electric machine that produces torque, a method for operating the electric machine to produce electric assist to the engine includes determining a magnitude of power requested by the vehicle operator, determining a minimum power limit and a maximum power limit of the engine that will produce a response to a torque request within a desired period following the torque request, using the magnitude of power requested, the minimum and maximum power limits of the engine to determine the upper and lower limits of the electric power assist such that the requested torque will be provided within the desired period, and operating the electric machine to provide electric power assist within said upper and lower limits. | 04-02-2009 |
20090088945 | Fuel Injection Strategy For Gasoline Direct Injection Engine During High Speed/Load Operation - A system and method for controlling operation of a multiple cylinder direct injection internal combustion engine include injecting fuel directly into the combustion chamber during the exhaust stroke at high engine speeds and loads to reduce the effect of intake airflow on the injection spray and improve fuel-air mixture homogeneity. | 04-02-2009 |
20090088946 | SECURED THROTTLE POSITION IN A COORDINATED TORQUE CONTROL SYSTEM - A throttle control module comprises a primary throttle position module, a redundant throttle position module, and a remedial action module. The primary throttle position module transforms a primary throttle area signal indicating desired throttle area into a primary throttle position signal indicating a first desired throttle position of a throttle valve. The throttle valve is actuated based upon the primary throttle position signal. The redundant throttle position module transforms a redundant throttle area signal indicating desired throttle area into a redundant throttle position signal indicating a second desired throttle position of the throttle valve. The remedial action module selectively generates a remedial action signal based upon a comparison of the first and second desired throttle positions. | 04-02-2009 |
20090088947 | FUEL VOLATILITY COMPENSATION FOR ENGINE COLD START SPEED CONTROL - A fuel control system includes devices that generate parameter signals. The parameter signals include an engine runtime signal and at least one of an engine load signal, a temperature signal and a barometric pressure signal. A modification module generates a modification signal based on the parameter signals. A control module compensates for a current fuel volatility by adjusting a current air/fuel mixture of an engine based on the modification signal. | 04-02-2009 |
20090088948 | Engine Control Apparatus - An engine control apparatus for controlling the amount of the air flowing into each cylinder in accordance with the amount of the fuel flowing into the cylinder at the time of starting the engine is disclosed. Further, at the engine starting time, the target amount of the air flowing into the cylinder is calculated and/or the amount of the air flowing into the cylinder is controlled, based on the amount of the fuel flowing into the cylinder. The amount of the fuel remaining in the neighborhood of the engine intake port or in the intake pipe is calculated by being separated into a balanced liquid film amount and unbalanced liquid film amount. Based on the unbalanced liquid film amount, the injection fuel amount is corrected so that the amount of the fuel flowing into the cylinder is controlled with high accuracy. | 04-02-2009 |
20090088949 | Method for Operating an Internal Combustion Engine - In a method for operating an internal combustion engine with a crankcase breather venting into an intake tract, operating parameters of the internal combustion engine are measured | 04-02-2009 |
20090088950 | FUEL CONTROL SYSTEM AND METHOD FOR GAS ENGINES - A gaseous carburetor or fuel control system includes a fuel metering assembly, a venturi mixer assembly, a throttle assembly, and an electronic control unit. The control unit controls the fuel metering assembly in a closed loop manner based on detected gas and air pressure to an air/fuel mixing venturi. An electronic governor which controls the throttle valve may also be controlled by the same control unit which controls the fuel metering assembly, using a separate control loop. | 04-02-2009 |
20090088951 | DEFECTIVE INJECTION DETECTION DEVICE AND FUEL INJECTION SYSTEM HAVING THE SAME - A pressure sensor is located in a fuel passage, which extends from a pressure-accumulation vessel to a nozzle hole of a fuel injection valve. The pressure sensor is located closer to a nozzle hole than the pressure-accumulation vessel for detecting pressure fluctuated by injection of fuel through the nozzle hole. An instruction signal output unit outputs an injection instruction signal so as to instruct an injection mode of fuel to the fuel injection valve. A defective injection determination unit determines whether a detected pressure of the fuel pressure sensor is fluctuated in a fluctuation mode in a range assumed from the injection instruction signal. The defective injection determination unit determines that a defective injection occurs when determining that the detected pressure is out of the fluctuation mode in the assumed range. | 04-02-2009 |
20090088952 | FUEL INJECTOR HAVING ALGORITHM CONTROLLED LOOK-AHEAD TIMING FOR INJECTOR-IGNITION OPERATION - The present invention provides an injector-ignition fuel injection system for an internal combustion engine, comprising an ECU controlling a heated catalyzed fuel injector for heating and catalyzing a next fuel charge, wherein the ECU uses a one firing cycle look-ahead algorithm for controlling fuel injection. The ECU may further incorporate a look-up table, auto-tuning functions and heuristics to compensate for the rapid rotational de-acceleration that occurs near top dead center in lightweight small ultra-high compression engines as may be used with this invention. The ECU may further ramp heat input to the injector in response to engine acceleration requests and, under such circumstances, may extend its look-ahead for up to four firing cycles. | 04-02-2009 |
20090093941 | FUEL INJECTION CONTROL SYSTEM WITH EXEMPT AREA OF FUEL MAP - A fuel management system for fuel injected vehicles permits a user to modify vehicle performance without exceeding acceptable standards for vehicle emissions. A portion of the fuel management system fuel map is designated as an exempt area in which the user is not permitted to modify the fuel offset values. | 04-09-2009 |
20090093942 | Control device of high-pressure fuel pump of internal combustion engine - A control device of a high-pressure fuel pump of an internal combustion engine capable of improving stability in controlling the drive of the high-pressure fuel pump by limiting the end timing of a drive signal of the high-pressure fuel pump and driving an actuator in a control effective range of the high-pressure fuel pump. The control device of the high-pressure fuel pump of the internal combustion engine has a fuel injection valve provided on a cylinder and the high-pressure fuel pump for pumping fuel to the fuel injection valve, wherein the high-pressure fuel pump comprises a pressure chamber, a plunger for pressurizing the fuel in the pressure chamber, a fuel valve provided in the pressure chamber, and the actuator for operating the fuel valve. The control device has means for calculating the drive signal of the actuator so as to realize the variable discharge of the high-pressure fuel pump. The means for calculating the drive signal has means for limiting the end timing of the drive signal of the actuator to a predetermined phase and/or means for limiting the output timing of the drive signal of the actuator to be within a predetermined phase range. | 04-09-2009 |
20090093943 | FUEL PRESSURE CONTROL APPARATUS FOR AN INTERNAL COMBUSTION ENGINE - The engine ECU executes a program including the step (S | 04-09-2009 |
20090093944 | Method of controlling fuel injection apparatus - A method and apparatus for controlling fuel injection in an engine is described. The apparatus comprises at least one fuel injector which is connected in an injector drive circuit powered by a power source. The method comprises determining an injection event sequence of the at least one fuel injector based on at least one engine operating parameter, determining a magnitude of a load parameter of the power source, comparing the magnitude to a predetermined threshold level for the load parameter, and determining a modified injection event sequence in the event that the magnitude is substantially equal to or greater than the predetermined threshold level. | 04-09-2009 |
20090093945 | Controller and control system for internal combustion engine - An alcohol sensor detects alcohol concentration of a fuel stored in a fuel tank. When an internal combustion engine is started, a start timing of heating a sensor element by a heater is variably set based on the alcohol concentration. | 04-09-2009 |
20090093946 | METHOD OF CONTROLLING AN INTERNAL COMBUSTION ENGINE AND SYSTEM INCLUDING THE ENGINE - A method of controlling an internal combustion engine and system including the engine is provided. The method may include closing an exhaust valve of a combustion chamber of said engine during a cylinder cycle prior to opening an intake valve of said combustion chamber. The method may include, when a desired engine torque is a predetermined torque or greater, supplying a first pilot fuel into said combustion chamber after said exhaust valve closing and supplying a first main fuel into said combustion chamber after the combustion of said first preliminary fuel during the cylinder cycle. The method may include, when a desired engine torque is less than said predetermined torque, supplying a second pilot fuel into said combustion chamber after said exhaust valve closing during the cylinder cycle and supplying a second main fuel into said combustion chamber after the supplying of said second pilot fuel into said combustion chamber. | 04-09-2009 |
20090093947 | INJECTION METHOD AND ASSOCIATED INTERNAL COMBUSTION ENGINE - In order to improve a combustion process of a motor vehicle, in particular with regard to emissions and/or the development of noise, a method for regulating an injection profile is provided, in which method a fuel is injected directly into a combustion chamber, wherein the regulation brings about a change in the injection profile ( | 04-09-2009 |
20090093948 | METHOD FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE OF A MOTOR VEHICLE - A method for controlling an internal combustion engine of a motor vehicle with an injection quantity correction unit is disclosed. The method includes the use of an electronic control device for controlling the internal combustion engine in a motor vehicle, for fault recognition with an irregular running determination unit and with an injection quantity correction unit, a defined group of cylinders being associated with a lambda probe, the injection quantity of a cylinder to be investigated of the defined group is adjusted in the direction of lean by a differential adjustment value associated with an irregular running differential value, and the injection value of at least one of the remaining cylinders, which are associated with the same lambda probe, is correspondingly adjusted in the direction of rich, so that in total a predetermined lambda value of this group of at least approximately 1 is reached. Homogeneous operation is thus ensured. The differential adjustment values may, for example, relate to the injection quantity itself, the injector stroke or the injection time. In this manner, a differential adjustment value individual to the cylinder is adjusted for each cylinder of the defined group. Correction values individual to the cylinder are then determined in that the differential adjustment values individual to the cylinder are related to one another. The correction values individual to the cylinder are compared for fault recognition with at least one threshold value. | 04-09-2009 |
20090099752 | Control Apparatus for Internal Combustion Engine - A control apparatus for an internal combustion engine includes a variable valve mechanism that changes the duration of an intake valve, and a controller that controls the variable valve mechanism to change the duration based on the operating state of the internal combustion engine. If a determination that there is a possibility of engine stalling is made when the internal combustion engine idling, the controller controls the variable valve mechanism so that the duration of the intake valve is made shorter than the duration which is achieved when the determination is made, only during the period until several four-stroke cycles of the internal combustion engine have elapsed after the determination is made. Thus, it is possible to appropriately suppress occurrence of engine stalling when the internal combustion engine is running at a low speed. | 04-16-2009 |
20090099753 | Engine Control Apparatus - A control apparatus of an engine that includes an intake passage fuel injector and an in-cylinder fuel injector according to the invention is characterised by further including correcting means for selectively increase-correcting or decrease-correcting a fuel injection quantity to bring an air-fuel ratio close to a predetermined target air-fuel ratio; and switching means for dividing an increase amount or decrease amount of the fuel injection quantity into a distribution ratio that is to be divided between the two fuel injectors, and when executing a correction by the correcting means, making one of the fuel injectors responsible for the larger part of a ratio, making the other fuel injector responsible for the smaller part of the ratio, and switching the fuel injector responsible fore the larger part of the ratio according to the operating state of the engine. | 04-16-2009 |
20090099754 | Method and Device for Optimizing Combustion of Diesel Fuels with Different Cetane Numbers in a Diesel Internal Combustion Engine - The invention relates to a method and a device for optimizing combustion of diesel fuels with different cetane numbers in a diesel internal combustion engine. It is provided that cylinder pressures are measured in at least one cylinder of the internal combustion engine during the combustion period, that at least one part of the measured cylinder pressures is evaluated in order to derive a characteristic value for the diesel fuel that is fed into the cylinder of the internal combustion engine, and that the characteristic value is used to change parameters that determine the combustion in the cylinders of the internal combustion engine. | 04-16-2009 |
20090099755 | EVEN FIRE 90A.degree.V12 IC ENGINES, FUELING AND FIRING SEQUENCE CONTROLLERS, AND METHODS OF OPERATION BY PS/P TECHNOLOGY AND IFR COMPENSATION BY FUEL FEED CONTROL - 90° V12 reciprocating, EFI/DIS fueled/fired, IC engines having a PCM controller operating the engine in an Even Fire ignition mode, in a novel fueling and firing sequence called Progressive Single/Pair (PS/P) firing, wherein the cylinders of each of a set of four pairs of internal cylinders are simultaneously fueled and fired in parallel to produce a pump-gas fueled power curve greatly improved over V6 and V8 engines. The inherent imbalance-induced transitory vibration in IFR RPM is compensated-for by fuel feed control, namely, leaning one cylinder of each pair-fired cylinder pair. The inventive 90° V12 retro-fits into the engine compartment of conventional vehicles and can use any liquid or gaseous fuel. The inventive 90° V12 has use in the exemplary fields of: automotive engines; heavy military and industrial equipment and vehicle engines; marine engines; aircraft engines; and stationary power sources; in both 2-cycle and 4-cycle modes, and in normally aspirated, super-charged and turbo-charged configurations. | 04-16-2009 |
20090099756 | FUEL INJECTION CONTROL DEVICE OF INTERNAL COMBUSTION ENGINE - An internal combustion engine including an in-cylinder injection injector and an intake port-injection injector. An ECU includes a fuel injection duration calculation portion that calculates a requested fuel injection duration and a fuel injection control portion that causes the in-cylinder injection injector to inject fuel during the compression stroke during the cold start of the engine, and that causes fuel to be injected also in a manner other than the fuel injection performed by the in-cylinder injection injector during the compression stroke if the requested fuel injection duration is longer than or equal to an interval time. Therefore, even if the requested fuel injection duration is longer than or equal to the interval time, the emissions can be reduced while a startability during a cold start of the internal combustion engine is secured. | 04-16-2009 |
20090105928 | METHOD FOR CONTROLLING A FUEL INJECTION SYSTEM OF AN INTERNAL COMBUSTION ENGINE - In a method for controlling a fuel injection system of an internal combustion engine with at least one combustion chamber, wherein the fuel injection system comprises a high pressure pump, whose flow rate is controllable, a control parameter of the high pressure pump is evaluated during the operation of the internal combustion engine. Said control parameter makes a detection of a bottleneck with the high pressure pump with respect to fuel quantity possible. | 04-23-2009 |
20090105929 | CONTROL METHOD FOR A DIRECT INJECTION SYSTEM OF THE COMMON-RAIL TYPE PROVIDED WITH A SHUT-OFF VALVE FOR CONTROLLING THE FLOW RATE OF A HIGH-PRESSURE - A control method of a direct injection system of the common-rail type provided with a shut-off valve for controlling the flow rate of a high-pressure fuel pump; the control method contemplates the steps of: feeding the pressurized fuel to a common rail by means of a high-pressure pump which receives the fuel through a shut-off valve; cyclically controlling the opening and closing of the shut-off valve for choking the flow rate of fuel taken in by the high-pressure pump; adjusting the flow rate of fuel taken in by the high-pressure pump by varying the ratio between the duration of the opening time and the duration of the closing time of the shut-off valve; determining a lower limit value of the opening time of the shut-off valve; and adjusting the driving frequency of the shut-off valve so that the real opening time of the shut-off valve is always over the lower limit value. | 04-23-2009 |
20090105930 | METHOD AND DEVICE FOR OPERATING AN INTERNAL COMBUSTION ENGINE - In order to operate an internal combustion engine, a fresh-air quantity, a residual-gas quantity and a fuel quantity are provided as a function of a load demand. During a change of load from a first to a second load demand, provision is made for the residual-gas quantity to first be provided according to the first load demand and for the fuel quantity to first be provided according to the second load demand. | 04-23-2009 |
20090112440 | TECHNIQUES FOR DELIVERING FUEL TO A PISTON AIRCRAFT ENGINE - A piston aircraft engine assembly includes a piston aircraft engine, a fuel source, and a control system adapted to deliver fuel from the fuel source to the piston aircraft engine. The control system includes a mass airflow sensing apparatus adapted provide a pressure signal, an electronic engine controller coupled to the mass airflow sensing apparatus, and a set of fuel injectors. The electronic engine controller is adapted to (i) receive the pressure signal from the mass airflow sensing apparatus and (ii) generate a set of fuel injector signals based on the pressure signal received from the mass airflow sensing apparatus. The set of fuel injectors is adapted to meter the fuel in response to the set of fuel injector signals generated by the electronic engine controller. | 04-30-2009 |
20090112441 | Method for Regulating an Air-Fuel Mixture For An Internal-Combustion Engine - A method of regulating the actual lambda value for an internal-combustion engine of a motor vehicle in a closed control loop is provided. A lambda setpoint is transferred to a controller for influencing an injection calculation for the internal-combustion engine, and an actual lambda value, which occurs at the output of a controlled system as a function of the injection calculation, is returned to the controller. At least one system parameter of the controlled system is determined, and the determined system parameter is transferred to a Smith predictor added to the controller for compensating the influence of the system dead time on the control loop characteristics. | 04-30-2009 |
20090112442 | Control apparatus and method for internal combustion engine and fuel property determining apparatus and method - A fuel feed chamber and a residual fuel chamber that are connectable to each other via a shutoff valve are provided in a fuel tank. When the fuel tank is refueled, the fuel feed chamber and the residual fuel chamber, which have been connected to each other so far, are disconnected and then fuel is fed only into the fuel feed chamber to refuel the fuel tank. When the engine is restarted after the refueling, only the fuel in the residual fuel chamber is supplied to the engine while the fuel feed chamber and the residual fuel chamber remain disconnected from each other, and the engine is controlled in accordance with the property of the fuel in the residual fuel chamber, which has been determined in advance. | 04-30-2009 |
20090112443 | Control system for internal combustion engine - A control system for an internal combustion engine in which fuel containing alcohol is used. In the control system, a maximum opening of a throttle valve of the engine is set, and a target opening of the throttle valve is set to a value which is equal to or less than the maximum opening. An opening of the throttle valve is controlled so as to coincide with the target opening. The maximum opening is according to a concentration parameter indicative of a concentration of alcohol in the fuel, a temperature parameter indicative of a temperature of the engine, and a number of ignitions performed after start of the engine. | 04-30-2009 |
20090118973 | APPARATUS, SYSTEM AND METHOD FOR OPERATING A DUAL FUELED SPARK IGNITION ENGINE - Described herein are various embodiments of an apparatus, system and method for operating a dual fueled spark ignition engine. For example, according to one illustrative embodiment, a method for operating a dual fueled spark ignition engine includes fueling the engine solely with a combustion promoter within a first engine load range between zero and an engine load associated with a target combustion condition selected from the group consisting of rough limit, knock limit, and any of various conditions between the rough limit and knock limit. Within the first engine load range, the amount of combustion promoter fueling the engine increases as the load increases. The method further includes fueling the engine on a mixture of ammonia and the combustion promoter within a second engine load range between the engine load associated with the selected target combustion condition and the engine load associated with a maximum operating pressure of the engine. Within the first engine load range, the amount of ammonia fueling the engine increases and the amount of combustion promoter fueling the engine remains substantially constant as the load increases. | 05-07-2009 |
20090118974 | Fuel Injection Control Apparatus And Fuel Injection Control Method Of Internal Combustion Engine - A fuel injection control apparatus of an internal combustion engine is provided with a fuel injection valve that injects fuel directly into a combustion chamber and a controller. When the engine is cold started (i.e., YES in step S | 05-07-2009 |
20090118975 | CONTROL FOR INTERNAL COMBUSTION ENGINE PROVIDED WITH CYLINDER HALTING MECHANISM - A control for an internal combustion engine having a fuel injection valve for directly injecting fuel to a combustion chamber of the engine, an ignition device for burning an air-fuel mixture containing the fuel injected from the fuel injection valve, and a variable cylinder management mechanism that is capable of changing the number of operating cylinders is provided. The control includes making a transition to an operating mode where the number of operating cylinders is decreased through the variable cylinder management mechanism. It is predicted based on an operating condition of the engine that an air-fuel ratio of an exhaust atmosphere of the engine becomes lean due to a stop of the fuel injection into one or more cylinders to be halted by the transition. If it is predicted that the air-fuel ratio of the exhaust atmosphere of the engine becomes lean, additional fuel is injected from the fuel injection valve to the one or more cylinders to be halted after ignition performed by the ignition device in a combustion cycle where the prediction is made. | 05-07-2009 |
20090118976 | FUEL INJECTION QUANTITY CONTROL SYSTEM FOR GENERAL-PURPOSE ENGINE - A fuel injection control system corrects the amount of fuel injected by fuel injection valves toward an increased side when an acceleration state resulting from operation of a throttle occurs. A control unit includes a detector, an acceleration state determinor, and an acceleration corrector. When an increase in the detected value is a predetermined value or more within a first predetermined time period, the acceleration state determiner determines that a state is an acceleration state and inputs a signal inducing fuel-amount-increase correction to the acceleration corrector. When the state where an amount of change in the detected value reaches a predetermined value or more in an increasing or decreasing direction within a first predetermined time period continuously occurs a predetermined number of times or more before a second predetermined time period expires, determination of the acceleration state is stopped until a third predetermined time period passes. | 05-07-2009 |
20090118977 | CYLINDER FUELING COORDINATION FOR TORQUE ESTIMATION AND CONTROL - An engine control system comprises a torque control module and a fueling control module. The torque control module selectively generates a deactivation signal for a first cylinder of a plurality of cylinders of an engine based on a torque request. The fueling control module halts fuel delivery to the first cylinder based on the deactivation signal. The torque control module increases a spark advance of the engine at a first time after the fueling control module halts fuel injection for the first cylinder. The first time corresponds to an initial time combustion fails to occur in the first cylinder because fuel delivery has been halted. | 05-07-2009 |
20090118978 | COMBUSTION CONTROL SYSTEM OF A DIESEL ENGINE - A combustion control system of a diesel engine, which controls a fuel-injection timing by switching from one to another of a normal combustion mode, a premix combustion mode, and a transition mode of between these modes, and switches from the normal combustion mode to the transition mode if an intake oxygen density is equal to or lower than a predetermined value in the normal combustion mode. | 05-07-2009 |
20090118979 | THROTTLE CONTROLLING APPARATUS FOR DIESEL ENGINE WITH SUPERCHARGER - An apparatus for controlling a throttle opening degree of a diesel engine with a supercharger is disclosed. The apparatus includes an electronic control unit having functions of detecting section, a computing section, a correcting section, and a correction limiting/inhibiting section. The detecting section detects the atmospheric pressure, and the computing section computes an atmospheric pressure correction value with respect to the throttle opening degree based on the detected atmospheric pressure. The correcting section corrects the throttle opening degree in accordance with the atmospheric pressure correction value. When the degree of separation of an actual charging pressure from a target charging pressure in the supercharger is les than a predetermined value, the correction limiting/inhibiting section limits or inhibits correction of the throttle opening degree in accordance with the atmospheric pressure correction value. | 05-07-2009 |
20090118980 | CONTROL APPARATUS AND METHOD FOR INTERNAL COMBUSTION ENGINE - An engine ECU ( | 05-07-2009 |
20090125208 | Plant Control System - In a system calculating control input Ucain based on the linear controller that calculates a provisional input Usl to converge an output of the plant to a desired value in accordance with response-specifying control algorithm based on the linear element and on the nonlinear compensator, the nonlinear characteristic adapter is provided for correcting the nonlinear compensator based on an error e_nl between an output estimated value Cain_est of the plant calculated by the controlled object model solely comprising the linear element and the output Cain of the plant. With this, even when the nonlinear characteristics of the plant change due to manufacturing variance or aging degradation, it becomes possible to accurately compensate the nonlinear characteristics by the nonlinear compensator. | 05-14-2009 |
20090125209 | Process And System For Controlling Effective Compression Ratios In An Engine Cylinder - The present disclosure is directed at the control of an effective compression ratio setting in an engine which may use a variety of fuels or fuel blends. The effective compression ratio may be selected based upon information from a fuel sensor and stored information regarding the detected fuel composition. The effective compression ratio may be adjusted for a selected cylinder by intake or exhaust valve timing. | 05-14-2009 |
20090125210 | METHOD AND DEVICE FOR THE DETERMINATION AND INPUT OF FUEL INTO AN INTERNAL COMBUSTION ENGINE ON THE BASIS OF AN AIR-FUEL RATIO TARGET AND IONIC CURRENT SENSOR - The invention relates to the field of method and devices for determining and putting in fuel into an internal combustion engine on the basis of an air-fuel ratio in proximity to the stoichiometric value. The present invention is based on the use of the ion current released by a device, positioned on each cylinder of said engine. This ion current is acquired by a Control Unit equipped by means, preferably electronic ones, which implement the invention, repeated continually for each engine cycle and for each cylinder, characterized in that said method develops over various phases. | 05-14-2009 |
20090125211 | Method of Controlling a Mechanical Compression Ratio, a Closing Timing of an Intake Valve and Air Stream - A spark ignition type internal combustion engine comprises a variable compression ratio mechanism able to change a mechanical compression ratio, a variable valve timing mechanism able to control a closing timing of an intake valve, and an air flow control valve controlling an air flow in a cylinder and able to control the amount of intake air fed into a combustion chamber. The mechanical compression ratio is made maximum so as to obtain the maximum expansion ratio at the time of engine low load operation and the actual compression ratio at the time of engine low load operation is made an actual compression ratio substantially the same as that at the time of engine medium and high load operation. When the engine load is in an extremely low load region, the air flow control valve is used to control an amount of intake air fed into the combustion chamber. Due to this, a high heat efficiency can be realized even in a region where the amount of intake air is difficult to control by changing the closing timing of the intake valve. | 05-14-2009 |
20090125212 | ENGINE CONTROL APPARATUS - An object of the present invention is to provide an engine control apparatus that can perform combustion pattern changeover at a time point where fuel injection can be performed plural times in an engine operating state where fuel injection is performed plural times in each combustion. | 05-14-2009 |
20090125213 | Homogenous charge compression ignition engine - An HCCI engine operated in HCCI and SI combustion modes. The engine includes an external EGR apparatus for performing external EGR. A control unit executes combustion control by specifying either one of HCCI and SI combustion ranges based on the driving state of the engine and a combustion range map for specifying the combustion range in accordance with the driving state. The map includes the HCCI and SI combustion ranges and a switch preparation combustion range, which is included in the SI combustion range and extends along a boundary between the SI combustion range and the HCCI combustion range. The control unit lowers the temperature in the combustion chamber when the switch preparation combustion range is specified by reducing the amount of internal EGR or performing the external EGR. | 05-14-2009 |
20090132149 | Ejector system for a vehicle and ejector system controller - A vehicle ejector system ( | 05-21-2009 |
20090132150 | ENGINE STOP CONTROL DEVICE - An engine stop control device, which is capable of performing a stop operation of an engine without imparting an unpleasant sensation to the driver, is provided. An engine stop control device ( | 05-21-2009 |
20090138172 | Air-Fuel-Ratio Control Apparatus for Internal Combustion Engine - The air-fuel-ratio control apparatus for an internal combustion engine obtains a composite air-fuel ratio abyfs from a downstream-side correction value Vafsfb(k) based upon an output value Voxs from a downstream air-fuel-ratio sensor | 05-28-2009 |
20090138173 | EVAPORATIVE EMISSIONS PURGE CONTROL - A fuel vapor control module for a vehicle comprises a refill diagnostic module, a refill volume calculation module, a canister loading module, and a purge adjustment module. The refill diagnostic module diagnoses a refueling event when an engine is started. The refueling volume calculation module determines a refueling volume based on a difference between a first fuel volume measured before the refueling event and a second fuel volume measured after the refueling event. The canister loading module determines a canister loading value based on the refueling volume, wherein the canister loading value corresponds to a ratio of a volume of a vapor canister to a volume of fuel vapor within the vapor canister. The purge adjustment module adjusts a fuel purge rate from the vapor canister based on the canister loading value. | 05-28-2009 |
20090138174 | TWO-CYCLE ENGINE - A 2-cycle engine | 05-28-2009 |
20090138175 | METHOD FOR CONTROLLING A FUEL SUPPLY SYSTEM OF AN INTERNAL COMBUSTION ENGINE - In a method for controlling a fuel supply system of an internal combustion engine with at least one combustion chamber, into which fuel can be injected via a fuel injector, the fuel injector being activated for the implementation of a normal start-up with specified injection parameters when the fuel supply system is filled, the specified injection parameters are modified for the acceleration of an initial start-up of the internal combustion engine when a filling of the fuel supply system with fuel has been implemented to evacuate the air from said fuel supply system. | 05-28-2009 |
20090138176 | CONTROL DEVICE OF INTERNAL COMBUSTION ENGINE - A fuel cut failsafe function monitoring section of a microcomputer sets a fuel cut failsafe function diagnosis period in a period, in which an operation of an engine is stopped (e.g., a period before engine start), and sends a fuel cut failsafe execution command signal to a fuel cut failsafe execution section of an abnormality monitoring device during the fuel cut failsafe function diagnosis period. Thus, the fuel cut failsafe execution section is caused to output a fuel cut failsafe signal to an injector driver to stop an operation of the injector driver. The fuel cut failsafe function monitoring section monitors an output level of a disablement port of the injector driver at the time, thereby performing abnormality diagnosis of a fuel cut failsafe function. | 05-28-2009 |
20090138177 | Air-fuel ratio control method of engine and air-fuel ratio control apparatus for same - An engine revolution number is controlled by operating opening and closing of a throttle valve by an engine revolution number control means on the basis of a deviation between a detected engine revolution number and a target engine revolution number, and air-fuel ratio control means applies the engine revolution number and the intake air flow rate to a predetermined numerical formula which is derived from a plurality of sets of data groups including the intake air flow rate and air-fuel ratio, which are obtained from a predetermined experiment model, and expresses the relationship between each data, to thereby calculate a fuel injection time for realizing a target air fuel ratio. A target air fuel ratio is thus realized while minimizing any delay of a response even during a transient operation, and thus, good engine operability is always acquired. | 05-28-2009 |
20090138178 | Fuel injection control method of engine and fuel injection control device for same - In a fuel injection control method of an engine which an intake air flow rate is estimated by a predetermined calculating method, using data on detected intake pipe pressure and engine rotating speed, a fuel injection time is determined by a predetermined calculating method, using the intake air flow rate, and a deviation from a target engine rotating speed, and an injector driving signal is outputted by a fuel injection control device, the fuel injection time is obtained by adding a battery voltage fluctuation correction time, and a transient correction injection time which corrects a deviation from the target engine rotating speed, which is obtained by a predetermined calculating method, to a basic injection time obtained by a predetermined calculating method. | 05-28-2009 |
20090138179 | Fuel injection system - A fuel injection system for an internal combustion engine comprises a plurality of pumps arranged to supply respective flows of pressurized fuel to a common accumulator volume that supplies the pressurized fuel in turn to a plurality of fuel injectors. An engine control unit controls the flow rate of pressurized fuel into the accumulator volume in response to engine load. The flow rate of pressurized fuel from at least one pump of the plurality is dependent upon engine speed; whereas at least one other pump of the plurality comprises a fuel output control responsive to the engine control unit enabling the flow rate of pressurized fuel from that pump to be varied independently of engine speed. In this way, the engine control unit controls the aggregate flow rate of pressurized fuel from the pumps into the accumulator volume, while controlling only one of the pumps. This reduces the cost of control apparatus and allows greater freedom of pump selection and flow circuit design. | 05-28-2009 |
20090143955 | Method and Apparatus for Controlling an Air-Fuel Mixture - In a method for controlling the composition of a combustible air-fuel mixture present in a combustion chamber of a spark-ignited internal combustion engine having external mixture formation, at least two fluids containing air are generated, of which at least one is an air-fuel mixture; the fluids are supplied to the combustion chamber, wherein the quantity proportions of the fluids are controlled such that their total composition corresponds to the predetermined composition. | 06-04-2009 |
20090143956 | CONTROL METHOD FOR MIXTURE RATIO IN A MULTI-CYLINDER INTERNAL COMBUSTION ENGINE EQUIPPED WITH AT LEAST TWO LAMBDA SENSORS PLACED UPSTREAM OF A CATALYTIC CONVERTER - Control method for the mixture ratio in a multi-cylinder internal combustion engine, the control method providing for the following: reading a first real value of the mixture ratio via a master lambda sensor associated with a first cylinder group, reading a second real value of the mixture ratio via a slave lambda sensor associated with a second cylinder group, calculating a first amount of fuel to inject into the cylinders of the first cylinder group to track a mixture ratio target value by using the first real value of the mixture ratio as a feedback variable, calculating the mean of the second real value of the mixture ratio in the detection window, calculating a correction value for the amount of fuel to inject based on the difference between a target value and the mean of the second real value of the mixture ratio, and calculating a second amount of fuel to inject into the cylinders of the second cylinder group by applying the correction value to the first amount of fuel to inject into the cylinders of the first cylinder group. | 06-04-2009 |
20090143957 | Method for automatically controlling an internal combustion engine - The invention concerns a method for automatically controlling an internal combustion engine, wherein, in a first controller mode, a charge air temperature controller is set as dominant for a map-controlled thermostatic valve, and, in a second controller mode, a coolant temperature limit controller is set as dominant for the map-controlled thermostatic valve. Upstream of a recooler, a coolant flow is divided into a recooler coolant flow and a bypass coolant flow as a function of the position of the map-controlled thermostatic valve. Downstream of the recooler, the temperature of the charge air cooler coolant flow is determined from the combined fractions of the recooler coolant flow and the bypass coolant flow to control the charge air temperature (TLL) or to control the coolant temperature (TKM). | 06-04-2009 |
20090150044 | FUEL INJECTION SYSTEM AND METHOD OF OPERATING THE SAME FOR AN ENGINE - A fuel injector is coupled to an engine. The fuel injector includes an injection opening configured to vary in cross-section between a open state and a fully closed state. The fuel injector is configured to provide a plurality of discrete commanded fuel injections into an engine cylinder by modulating the size of the injection opening without completely closing the opening to the fully closed state. | 06-11-2009 |
20090150045 | FUEL INJECTION CONTROL DEVICE - A fuel injection control device that prevents a misfire is provided. The fuel injection control device comprises: target injection amount determination means | 06-11-2009 |
20090150046 | Method for controlling an internal combustion engine and internal combustion engine - A control method for an internal combustion engine with at least one pressure accumulator in which fuel is stored under pressure, in order to supply pressurized fuel to at least one injection valve, and at least two high-pressure pumps which are connected to the at least one pressure accumulator in such a way that they can supply fuel to this at least one pressure accumulator either jointly or separately, with, if at least one condition is fulfilled, the high-pressure pumps being operated in a special operating mode in which only one of the high-pressure pumps supplies fuel to the at least one pressure accumulator, and with the high-pressure pumps being otherwise operated in a normal operating mode in which the at least two high-pressure pumps jointly supply fuel to the at least one pressure accumulator. | 06-11-2009 |
20090150047 | High-Pressure Fuel Supply Apparatus and Control Apparatus for Internal Combustion Engine - In an internal combustion engine provided with a high-pressure fuel pump, if the discharging rate of the high-pressure fuel pump is greater than the injection quantity of fuel injected from a injector with the high-pressure fuel pump remaining uncontrollable due to failure or the like, it is probable that the fuel pressure in a common rail unintentionally rises to affect the injector. A high-pressure fuel supply apparatus is provided to solve such a problem. | 06-11-2009 |
20090150048 | Method of controlling fuel injection and ignition of an internal combustion engine, using monitored intake pressure - An engine control method, based on engine intake pressure, is operable to shorten a period from a start of cranking until a sequential fuel injection control is determined. Provisional and final stroke determinations are made for a plurality of cylinders from a synthetic manifold pressure waveform. The provisional stroke determination is made after a crankshaft is rotated 720 degrees after settlement of a crank reference position. The final stroke determination is made when the crankshaft rotates 1440 degrees after the provisional stroke determination. When the provisional stroke determination is made, fuel is injected into the cylinders based on a detected value of the engine intake pressure; and when the stroke determination is finally settled, the fuel injection and ignition of the engine are controlled based on the detected value of the engine intake pressure. | 06-11-2009 |
20090150049 | INTERNAL COMBUSTION ENGINE WITH TORQUE ADJUSTABLE IN EACH CYLINDER - Multi-cylinder internal combustion engine wherein the intake valves, the injector means and the ignition means are controlled so as to adjust the enthalpy value of the exhaust gases produced by each cylinder independently from the other cylinders. | 06-11-2009 |
20090150050 | FUEL INJECTOR AND FUEL INJECTION DEVICE HAVING SAME - A fuel injector is configured to inject gaseous fuel into a combustion chamber of an engine by using liquid fuel as a pressure transmission medium to open and close a nozzle hole. A nozzle portion has a fuel chamber and a tip end, which defines the nozzle hole. A first passage is configured to communicate the fuel chamber with a gaseous fuel passage to introduce gaseous fuel. A second passage is configured to communicate the fuel chamber with a liquid fuel passage to introduce liquid fuel. A passage switching valve is configured to switch the first passage and the second passage. | 06-11-2009 |
20090150051 | MULTI-CYLINDER INTERNAL COMBUSTION ENGINE WITH INDEPENDENT CYLINDERS - Internal combustion engine with variable actuation of the valves that provides electronic control means that considers the activation delays of the cylinders so that new operating conditions are assigned for the first time to a cylinder which firstly, following an engine operating variation request, is effectively able to satisfy such new operating conditions. | 06-11-2009 |
20090150052 | Control Apparatus for Spark-Ignition Engine - Disclosed herein is a control apparatus for a spark-ignition engine that is capable of avoiding knocking at the time of high-load operation. With this control apparatus, a residual-gas suction unit or the like is not used, an exhaust gas does not deteriorate due to injection in a compression stroke, and a thermal efficiency also does not decrease. | 06-11-2009 |
20090150053 | METHOD FOR ASCERTAINING THE GAS WORK PERFORMED BY THE CYLINDER PRESSURE ON THE PISTON OF A CYLINDER AND THE INTERNAL MEAN PRESSURE - To determine the gas work W | 06-11-2009 |
20090150054 | MULTI-CYLINDER INTERNAL COMBUSTION ENGINE WITH INDEPENDENT CYLINDERS - Internal combustion engine with variable actuation of the valves providing electronic control means which, when the engine is subject to an operating variation request from a first operating condition to a second operating condition, are adapted to select a cylinder to which to assign said second operating condition based on a determined programming delay only as a function of the engine speed. | 06-11-2009 |
20090157279 | Fuel injection control device and method for continuously controlling fuel injection during engine operation based on throttle position - A fuel injection control device includes a basic-injection-use map for deriving a basic injection amount and an additional-injection-use map for deriving an additional injection amount, each corresponding to the throttle opening. During operation of the engine, in each engine cycle, a first calculation stage for calculating the basic injection amount, and a second calculation stage provided after the first calculation stage are set. A first injection amount and a second injection amount obtained by applying the throttle opening measured in the first calculation stage and the second calculation stage, respectively, are compared. When the second injection amount is greater than the first injection amount, an additional injection amount is calculated by subtracting the first injection amount from the second injection amount; and when the first injection amount is greater than the second injection amount, the basic injection amount calculated in the first calculation stage is corrected. | 06-18-2009 |
20090157280 | METHOD AND DEVICE FOR OPERATING AN INTERNAL COMBUSTION ENGINE - In a method and device for operating an internal combustion engine with an intake tract, a switching device for modifying an effective intake pipe length and/or an effective intake tract volume is arranged. By a dynamic intake tract model an estimated intake pipe pressure is determined. The dynamic model is adapted dependent on a trimming value. If a switching position modification is controlled, an estimated old position intake pipe pressure on the one hand is determined with the previous switching position and preventing of the adaptive trimming value adjustment and on the other hand an estimated new position intake pipe pressure is determined with the modified switching position and prevention of the adaptive trimming value adjustment and dependent on a correlation check of the estimated old position pressure and the estimated new position pressure with respect to the measured pressure an actual switching position of the switching device is identified. | 06-18-2009 |
20090171551 | SECONDARY AIR SUPPLY SYSTEM AND VEHICLE - A secondary air supply system includes a CPU, a first air supply pipe, a second air supply pipe, a first shut-off valve, and a second shut-off valve. First ends of the first air supply pipe and the second air supply pipe are connected to an air cleaner box and the other ends thereof are connected to an exhaust port. The CPU controls opening/closing of the first shut-off valve and the second shut-off valve based on a state of an engine. The first shut-off valve and the second shut-off valve are selectively opened by the CPU, so that air in the air cleaner box is supplied to the exhaust port through the first air supply pipe and/or the second air supply pipe. | 07-02-2009 |
20090171552 | Engine Control Device, Engine Control Method, and Motorcycle - An engine control device includes an engine revolution speed information acquisition device for acquiring the revolution speed of an engine, an accelerator opening sensor for detecting the opening of an accelerator operated by a rider of a vehicle mounted with the engine, a throttle opening control unit configured to control an opening of a throttle of the engine on the basis of the opening of the accelerator and other information, and an ignition control unit configured to limit ignition at a crank position before a compression top dead center on the basis of the opening of the accelerator and the revolution speed of the engine. | 07-02-2009 |
20090177364 | FUEL INJECTION CONTROL METHOD FOR A DIRECT INJECTION SPARK IGNITION INTERNAL COMBUSTION ENGINE - A direct injection spark ignition internal combustion engine including a controller that controls a fuel injector to perform a plurality of fuel injections to inject a necessary amount of fuel during an intake stroke, or from an intake stroke to a first half of a compression stroke, when homogeneous combustion is to be performed. The fuel injection control sets an injection prohibition period, in which injection of the fuel is prohibited, to a middle of the intake stroke. The injection prohibition period is decreased as the engine speed and as the intake air pressure increase. In addition, the amount of fuel injected before the injection prohibition period is reduced, and the amount of fuel injected after the injection prohibition period is increased, as the engine speed decreases. | 07-09-2009 |
20090177365 | INJECTOR CALIBRATION METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE - A method for operating an internal combustion engine has the steps: (a) during an overrun phase of the internal combustion engine, activating an injector of a first combustion chamber for a predetermined activation time τ | 07-09-2009 |
20090177366 | METHOD AND DEVICE FOR CONTROLLING AN INJECTION VALVE OF AN INTERNAL COMBUSTION ENGINE - In order to reduce the quantity deviation of a fuel injection valve, it is proposed according to the various embodiments that a test injection be carried out during an overrun cut-off phase of a motor vehicle in operation. In the process, the fuel rail ( | 07-09-2009 |
20090177367 | FUEL INJECTION CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - Disclosed herein is a fuel injection control apparatus for an internal combustion engine, capable of opening and closing accurately a valve of the fuel injector even when the quantity of injection required is small and a pulse duration of a driving pulse signal to the fuel injector is short. | 07-09-2009 |
20090182483 | Method and device for controlling a self-igniting internal combustion engine - A method for controlling a self-igniting internal combustion engine includes: specifying a target combustion position; determining at least one actual combustion position of at least one cycle of the internal combustion engine; specifying a computing model for calculating a following combustion position as a function of the at least one actual combustion position; calculating the following combustion position using the computing model; comparing the calculated following combustion position with the specified target combustion position; and determining at least one operating quantity for operating the internal combustion engine for at least one cycle as a function of the comparison of the calculated following combustion position with the specified target combustion position. | 07-16-2009 |
20090182484 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE, COMPUTER PROGRAM AND CONTROL UNIT - A method for operating an internal combustion engine, especially an internal combustion engine that is operable, at least in a part-load range, in an operating mode with auto-ignition, in which, at an abrupt change in load and/or at a changeover between an operating mode with auto-ignition and an operating mode without auto-ignition, a parameter of the combustion process correlating with the combustion noise is adapted stepwise over a plurality of combustion cycles from a first parameter value before the abrupt change in load or the changeover to a second parameter value after the abrupt change in load or the changeover, by influencing a combustion position of the combustion process. | 07-16-2009 |
20090182485 | METHOD FOR REGULATING AN INTERNAL COMBUSTION ENGINE, COMPUTER PROGRAM AND CONTROL UNIT - A method for regulating an internal combustion engine that is operable, at least in a part-load range, in an operating mode with auto-ignition and a combustion process of which is influenced by a manipulated variable, the method includes the steps of determining a desired value of a combustion position feature of the combustion process; determining the manipulated variable by predictive closed-loop control based on a modeling of the combustion position feature as a function of the manipulated variable in the combustion process; and determining, as the manipulated variable, a value at which the difference between the desired value of the combustion position feature and a model-based predicted combustion position feature is minimized. | 07-16-2009 |
20090182486 | METHOD AND DEVICE FOR OPERATING AN INTERNAL COMBUSTION ENGINE - A method and a device are provided for operating an internal combustion engine, which make possible an improved characteristics curve correction of an actuator in an air supply of the internal combustion engine. In the process, an air mass flow supplied to the internal combustion engine is influenced via the actuator in an air supply. For the setting of an actuating position of the actuator having a specified, e.g., minimum, air mass flow, starting from a specified actuating position, the actuator is moved by an offset value of the actuating position. The offset value of the actuating position is corrected as a function of an offset value for the air mass flow. | 07-16-2009 |
20090187326 | ELECTRIC MOTOR FOR FUEL PUMP WITH IMPROVED SHUTDOWN FEATURES - An electric motor for a fuel pump is provided with a shutdown switch positioned intermediate an inverter, and its control coil. In this location, the shutdown function can be achieved without heavy components. In another feature, when the fuel pump is shut down, a signal is sent upstream to a voltage regulator associated with a generator, such that the voltage supplied downstream by the generator can be reduced to eliminate any potential voltage spike due to the shutdown of the electric motor. The electric motor with shutdown switch enables low weight fault tolerant flux regulated machines. | 07-23-2009 |
20090187327 | Liquid Pump Control System - Fuel or additive pump control system comprising a fuel or additive system control unit (FSCU( | 07-23-2009 |
20090187328 | ENGINE VACUUM ENHANCEMENT IN AN INTERNAL COMBUSTION ENGINE - A control system for an engine includes a manifold absolute pressure (MAP) module that compares MAP of an engine to a predetermined MAP and an air/spark module that decreases flow of air and that advances ignition spark when the MAP module indicates that the MAP is greater than a predetermined MAP. | 07-23-2009 |
20090192694 | APPARATUS AND METHOD FOR ADJUSTING THE PERFORMANCE OF AN INTERNAL COMBUSTION ENGINE - A passive control device is interposable between an oxygen sensor and an electric control unit of a motor vehicle to modify a reference voltage used by the electric control unit so that a richer fuel mixture is provided to an internal combustion engine of the motor vehicle than would otherwise be provided in absence of the passive control device. The passive control device directly passes the voltage signal from the oxygen sensor to the electronic control unit without modification. The passive control device works with the electronic control unit to provide a richer fuel mixture without reprogramming the electronic control unit. | 07-30-2009 |
20090192695 | Fuel injection control apparatus for a vehicle, and method of using same - A fuel injection control apparatus includes a low-side driver, arranged electrically downstream of an injector and operable to drive the injector with a changeover of an ON-OFF state thereof in response to a drive signal from a CPU; a high-side driver, arranged electrically upstream of the injector and downstream of a power source, and having an ON-OFF state thereof which may be changed in response to the drive signal from the CPU; a high-side return signal detection unit and a low-side return signal detection unit. Each of the low-side and high-side drivers includes a transistor arranged inside an ECU. The CPU diagnoses a function of a drive circuit based on the presence or non-presence of return signals received from the high-side return signal detection unit and the low-side return signal detection unit with respect to predetermined driving states of both the low-side and high-side drivers. | 07-30-2009 |
20090192696 | METHOD FOR EVALUATING THE QUANTITY OF FUEL INJECTED BY A FUEL INJECTOR IN AN INTERNAL COMBUSTION ENGINE, PARTICULARLY A DIESEL COMMON-RAIL ENGINE - A method is provided that includes, but is not limited to acquiring the crankshaft speed signal while one fuel injector is energized for a determined period of time (ET) in which all the other fuel injectors are de-energized, processing the acquired crankshaft speed signal so as to obtain signals or data (A) representative of the amplitude of a predetermined harmonic component of the crankshaft speed signal, and calculating the power (RMS/MS) of said harmonic component, and assuming the calculated power value (C) as an estimation of the quantity of fuel actually injected by the energized injector in said predetermined period of time (ET). | 07-30-2009 |
20090198431 | METHOD AND APPARATUS FOR CONTROLLING MODE TRANSITION IN A SPARK-IGNITION DIRECT-INJECTION INTERNAL COMBUSTION ENGINE - The disclosure sets forth operating a spark-ignition, direct-fuel injection internal combustion engine, including transitioning the engine from operating in a stratified charge combustion mode to operating in a homogeneous charge combustion mode. External EGR flow is discontinued, and an in-cylinder trapped air mass and an in-cylinder EGR mass in an air intake system of the engine are estimated. Engine throttle position is controlled to achieve trajectories for air/fuel ratio and the in-cylinder EGR mass determined based upon the estimated in-cylinder trapped air mass and the in-cylinder EGR mass in the air intake system. A double-injection fueling strategy and a single-injection fueling are used during the transition. | 08-06-2009 |
20090198432 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE WITH SUPERCHARGER - An air flow amount passing through a centrifugal compressor is acquired on the basis of outputs of an air flow meter. A surge limit compressor rotation speed is acquired on the basis of the obtained air flow amount passing through the compressor. A current compressor rotation speed (turbo rotation speed) is acquired by a turbo rotation speed sensor. A rotation speed of the compressor is controlled on the basis of the surge limit compressor rotation speed and the current compressor rotation speed. More specifically, while being limited so as to be equal or less than the surge limit compressor rotation speed, a target compressor rotation speed is controlled so as to be a value according to the operating conditions, such as accelerator opening and engine speed, of an internal combustion engine. In addition, the surge of the compressor is judged on the basis of the surge limit compressor rotation speed and the current compressor rotation speed. | 08-06-2009 |
20090198433 | METHOD FOR IDENTIFYING A FUEL QUALITY AND FOR OPERATING AN INTERNAL COMBUSTION ENGINE AND AN ENGINE CONTROL UNIT - A method for identifying the fuel quality and for operating an internal combustion engine, as well as an engine control unit, in which the temperature of at least one sheathed-element glow plug of the engine is controlled, an engine response after a temperature change is compared to an engine response before the temperature change, and from the result of this comparison, the fuel quality is derived. | 08-06-2009 |
20090198434 | ABNORMALITY DIAGNOSIS DEVICE OF INTERNAL COMBUSTION ENGINE - A cylinder causing an abnormal air-fuel ratio is specified. Injection ratio changing control for gradually changing a ratio between command injection quantities of two injectors of the abnormal cylinder while keeping the sum of the command injection quantities of the two injectors constant is performed on the abnormal cylinder. If the injection ratio changing control is performed under the same condition, a changing behavior of the actual sum injection quantity of the two injectors varies and a changing behavior of the air-fuel ratio varies depending on which one of the two injectors is abnormal. Therefore, the abnormal injector out of the two injectors is specified using a learning value of an air-fuel ratio feedback correction value based on an output of an exhaust gas sensor. | 08-06-2009 |
20090198435 | ENGINE-CONTROLLING UNIT AND ENGINE-CONTROLLING METHOD FOR AN INTERNAL-COMBUSTION ENGINE - An engine-controlling unit/method for an internal-combustion engine with first and second combustion-chamber groups having a first and second catalytic exhaust-gas converter, respectively, having (a) a master control device that controls a combustion-air ratio for the first combustion-chamber group by forcibly exciting the first combustion-chamber group, further having (b) a slave control device that controls a combustion-air ratio for the second combustion-chamber group by forcibly exciting the second combustion-chamber group, and further having (c) a data link between the master and slave for control through the master. It is proposed (d) for the master to transmit a synchronizing signal to the slave over the data link during changeover between the rich and lean combustion-air ratio within the scope of forced excitation, and (e) on receipt of the synchronizing signal from the master for the slave to change over within the scope of forced excitation between the rich and lean combustion-air ratio. | 08-06-2009 |
20090198436 | FUEL INJECTION CONTROL SYSTEM AND VEHICLE COMPRISING THE SAME - A fuel injection control system for a motorcycle includes an ECU (Engine Control Unit) which calculates the amount of fuel to be injected by an injector based on data detected by various sensors. The fuel injection control system also includes a generator which supplies electric power to the injector and the ECU, and is driven in accordance with the engine, and a kick pedal for manually starting the engine by manually driving the generator with a user's foot. The ECU is configured to acquire data detected by the sensors at shorter intervals during a predetermined period before starting the engine than after the engine is started. | 08-06-2009 |
20090204311 | METHOD FOR ADAPTING VARIATIONS IN CYLINDER-SELECTIVE INJECTION QUANTIFIES OF A DIRECT INJECTION SYSTEM AND METHOD FOR CYLINDER-SELECTIVELY CONTROLLING INJECTION - In a method for adapting variations in cylinder-selective injection quantities of a direct injection system of an internal combustion engine with a plurality of cylinders, factorial and additive adaptive values are determined in order to be able to reliably adjust a given lambda value for the entire engine even in the event of a multiple injection. | 08-13-2009 |
20090204312 | CONTROLLER FOR INTERNAL COMBUSTION ENGINE - The engine operational region in which the cylinder deactivation operation is performed in the cylinder deactivation control is switched between the cylinder deactivation region AP | 08-13-2009 |
20090210131 | Device For Controlling Internal Combustion Engine - An internal combustion engine to which the inventive device for controlling an internal combustion engine is applied includes an intake control valve provided in an air-intake path at a position upstream from an intake valve, the intake control valve being controlled to be either in an operative state operating in relation to the operation of the intake valve or in an non-operative state maintaining the air-intake path always open, and, in the operative state, closed at least prior to the opening of the intake valve and opened after the opening of the intake valve to generate the pressure difference between the upstream and downstream from the intake control valve. The device for controlling an internal engine includes a detector for detecting a value corresponding to an amount of intake air fed to the internal combustion engine, and correction means for correcting the value detected by the detector, in correspondence to the operation characteristics of the intake control valve when the intake control valve is in the operative state. | 08-20-2009 |
20090210132 | Method for Operating an Internal Combustion Engine - In an internal combustion engine, fuel is directly injected into at least one combustion chamber at least during a compression stroke in such a way that a stratified mixture is present in the combustion chamber. This mixture is then externally ignited. The fuel is introduced during the compression stroke by at least one main injection and an ignition injection, the ignition injection taking place immediately before an ignition and producing at least essentially no torque. | 08-20-2009 |
20090210133 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE - An internal combustion engine includes a plurality of cylinders, into whose combustion chambers the fuel is introduced individually for each cylinder. It is proposed that, during a time period a setpoint fuel quantity is varied individually for each cylinder in such a way that the average formed over the time period equals, at least approximately, a normal setpoint fuel quantity which would have to be injected without the above-mentioned variation for inducing or maintaining a setpoint operating state of the internal combustion engine. | 08-20-2009 |
20090210134 | INTERNAL COMBUSTION ENGINE CONTROLLER - A controller of an internal combustion engine operable by an alcohol-containing fuel, includes: an alcohol concentration detecting unit, operable to detect an alcohol concentration of the alcohol-containing fuel; a feedback controller, operable to perform feedback control to make an exhaust air-fuel ratio of the internal combustion engine become equal to a target air-fuel ratio in accordance with an operation region; and an operation region setting unit, operable to set a stoichiometric operation region, in which the target air-fuel ratio is stoichiometric, in an enlarged manner when the alcohol concentration, detected by the alcohol concentration detecting unit, is higher than a concentration. | 08-20-2009 |
20090210135 | INTERNAL COMBUSTION ENGINE CONTROLLER - A controller of an internal combustion engine operable by an alcohol-containing fuel includes: an alcohol concentration detecting unit, operable to detect an alcohol concentration of the alcohol-containing fuel; and a suppressing unit, operable to suppress a degree of change of an intake air amount of the internal combustion engine when the alcohol concentration, detected by the alcohol concentration detecting unit, is higher than a concentration. | 08-20-2009 |
20090210136 | METHOD AND DEVICE FOR OPERATING AN INTERNAL COMBUSTION ENGINE - A start quantity adaptation value (ST_AD) is adapted as a function of a variable that is characteristic of a rotational speed profile during the start (ST) of the internal combustion engine. A lambda adaptation value (LAM_AD) is adapted as a function of at least one control parameter (LAM_RP) of the lambda controller if a preset condition (COND) is met, which presupposes the existence of a quasi-stationary operating state. An intermediate correction value (ZW_KOR) is adapted as a function of a change of the start quantity adaptation value (ST_AD) since a last adaptation of the lambda adaptation value (LAM_AD). A fuel mass (MFF) to be metered is determined as a function of at least one operating variable (BG) of the internal combustion engine. The fuel mass (MFF) to be metered is corrected during the start (ST) of the internal combustion engine by means of the start quantity adaptation value (ST_AD). The fuel mass (MFF) to be metered outside of the start (ST) of the internal combustion engine is corrected as a function of the lambda adaptation value (LAM_AD). The fuel mass (MFF) to be metered is corrected as a function of the intermediate correction value (ZW_KOR) until for the first time after the respective start (ST) the lambda adaptation value (LAM_AD) is adapted. | 08-20-2009 |
20090210137 | VALVE TIMING CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A valve timing control apparatus includes a phase varying mechanism arranged to vary a relative rotational phase of a cam shaft with respect to a crank shaft; a driving mechanism arranged to provide a driving force to the phase varying mechanism by energization; a control mechanism configured to control a current applied to the driving mechanism; and a phase angle sensing mechanism arranged to sense the relative rotational phase of the cam shaft with respect to the crank shaft, and to have a detection period longer than a control period of the control mechanism in accordance with an engine operating state. The control mechanism is configured to repeat increasing and decreasing of the current applied to the driving mechanism when the phase varying mechanism continuously varies the relative rotational phase of the cam shaft with respect to the crank shaft by a predetermined angle or more. | 08-20-2009 |
20090210138 | CONTROL DEVICE AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - A control device for an internal combustion engine includes a fuel injection device that injects a fuel in accordance with a required injection amount that is required for combustion in a combustion chamber that is performed to produce an output of the internal combustion engine, and a fuel property specific determination device that specifically determines a fuel property of the fuel injected. The control device further includes a control device that performs an output correction process of controlling at least a portion of the internal combustion engine so as to correct the produced output based on a difference in the specifically determined fuel property. According to the control device and a control method thereof, driveability is secured even in the case where a blended fuel is used during a high load region of the internal combustion engine. | 08-20-2009 |
20090216422 | Electronic Fuel Injection Controller - The fuel injection controller is an electronic device for the “Generation I” Chevrolet V8 engine. The fuel injection controller measures rotational position and rotational speed for both the crankshaft and the camshaft. The uniqueness of this design is that it repackages the internal components from a standard front-mount location “Optispark” distributor normally found on a “Generation II” Chevrolet engine into a housing that mounts the components internally in a top rear-mount location on “Generation I” Chevrolet engines. The fuel injection controller then allows use of a standard production Chevrolet “Generation II” fuel injection computer (not a part of this patent) for a “Generation I” Chevrolet fuel injected engine. Because of insufficient information for rotational position and rotational speed for both the crankshaft and the camshaft, “Generation I” Chevrolet engine fuel injection computers were restricted to operate in “batch fire”. Batch fire means all the injectors on one bank of a V8 fire, then all the injectors on the other bank fire, etc. This fuel injection controller and associated Chevrolet “Generation II” fuel injection computer (not a part of this patent) allows sequential control of the fuel injectors on a “Generation I” Chevrolet fuel injected engine so that each injector fires only when the intake valve is opening. The fuel injection controller and associated Chevrolet “Generation II” fuel injection computer also allow electronic “flash” programming of engine control parameters where previous “Generation I” Chevrolet fuel injection computers required reprogramming via changing a replaceable EPROM. | 08-27-2009 |
20090216423 | FUEL MIXTURE AUTOIGNITION CONTROL METHOD, NOTABLY FOR DIESEL TYPE INTERNAL-COMBUSTION ENGINES, AND ENGINE USING SAME - The present invention relates to a method for controlling autoignition of a fuel mixture, notably for a diesel type internal-combustion engine, according to which a fuel mixture is made in at least one combustion chamber ( | 08-27-2009 |
20090216424 | DEVICE FOR A FUEL SYSTEM AT AN ENGINE POWERED VEHICLE - A device for a fuel system for a combustion, engine (M), in which a validation unit (V) is connected to a supply line (L) between a fuel reservoir (D) and the combustion engine (M), including means (DR | 08-27-2009 |
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 |
20090216426 | PLUG-IN HYBRID EVAP VALVE MANAGEMENT TO REDUCE VALVE CYCLING - A control module for an engine of a vehicle includes a mode determination module that determines whether the vehicle is in a fuel-saving mode based on an acceleration of the vehicle. A diurnal control valve (DCV) control module selectively closes a DCV a predetermined time after at least one of determining that the vehicle is in the fuel-saving mode and determining that the engine is stopped. | 08-27-2009 |
20090216427 | METHOD AND SYSTEM FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE - Methods and systems for controlling an internal combustion engine are provided. One example method may include closing an intake valve later during a cylinder cycle than a timing with which an amount of air inducted into a cylinder from an air intake passage would be maximized, and earlier during the cylinder cycle as a desired amount of air to be inducted into the cylinder increases, while an engine is operating at a given engine speed. The method may further include closing the intake valve earlier during a cylinder cycle as the engine speed increases when the desired amount of air to be inducted into the cylinder is at a maximum. | 08-27-2009 |
20090222192 | Straddle-Type Vehicle and Combustion Controller for Straddle-Type Vehicle - A straddle-type vehicle | 09-03-2009 |
20090222193 | METHOD OF FUEL INJECTION - The present invention relates to a method of operating an internal combustion engine. With reference to FIG. | 09-03-2009 |
20090222194 | ADAPTIVE MILLER CYCLE ENGINE - A Miller cycle combustion engine capable of operating on multiple fuel types, and a method of operating the engine, is provided. The engine includes a fuel type determiner to determine the fuel type, and a compression adjustor to adjust the compression of a first cylinder of the engine to match the requirement of the determined fuel type. The compression adjustor is a variable valve timing system that provides a maximum compression when a fuel type requiring maximum compression is determined, and that advances or retards the opening of the intake valve to provide lower compression when a fuel type requiring lower compression is determined. | 09-03-2009 |
20090222195 | METHOD FOR CONTROLLING TWO CONSECUTIVE INJECTION PULSES IN AN ELECTRICALLY-ACTUATED FUEL INJECTOR SYSTEM FOR AN INTERNAL COMBUSTION ENGINE, PARTICULARLY A DIESEL ENGINE - At each engine cycle, nearby the TDCC, an injector is driven so as to perform a fuel injection sequence according to a predetermined pattern (A-Z), including a plurality of successive, separate fuel injection pulses (pulse | 09-03-2009 |
20090234557 | CONTROL DEVICE AND CONTROL METHOD FOR SPARK-IGNITION DIRECT-INJECTION INTERNAL COMBUSTION ENGINE - If two-split injection logic has been adopted, an engine ECU executes a program including the steps of calculating first injection start timing of the two-split injection logic, calculating second injection start timing of the two-split injection logic, calculating a first injection permitted time period A of the two-split injection logic, calculating a first injection required time period B of the two-split injection logic, and adopting single injection logic instead of the two-split injection logic if the first injection start timing A of the two-split injection logic is shorter than the first injection required time period B of the two-split injection logic. | 09-17-2009 |
20090240417 | Diagnosis Device for Electromagnetic Relief Valve In Fuel Delivery Device - A fuel delivery device | 09-24-2009 |
20090240418 | DUAL THROTTLE POSITION SENSOR DIAGNOSTIC SYSTEM WITH REDUCED STALLING - A system includes an out of correlation (OOC) detection module that detects an OOC error between a first throttle position sensor (TPS) and a second TPS. An out of range (OOR) detection module that detects first and second OOR errors for the first and second TPS, respectively. An OOC counter sets an OOC error when an OOC count is greater than or equal to a first OOC value. An OOR counter sets first and second OOR errors when first and second OOR counts, respectively, are greater than or equal to a second OOR value that is less than the first OOC value. A control module increments the counters when the respective errors occur and sets at least one of the first and second OOR counts equal to the OOC count when at least one of the first and second OOR errors occur after the OOC error. | 09-24-2009 |
20090240419 | Pre-Delivery Strategy for Diesel-Engine Vehicles - A method to supply fuel to an engine of a vehicle is provided. The method includes adjusting a direct injection of fuel into a cylinder of the engine based on whether the vehicle is in a pre-delivery state. In one example, the method includes reducing an amount of fuel in a post injection. In other examples, the method includes changing a timing of a post injection. In still other examples, the method includes changing an amount and/or a timing of a main injection of fuel, or suppressing a post injection. By using a modified post injection schedule during pre-delivery, cylinder bore wetting effects may be reduced. After pre-delivery, a normal post injection schedule may be used to reduce emissions. Pre-delivery may be identified in a variety of ways: based on a number of miles driven, a maximum vehicle speed, an engine run time, or combinations thereof, as examples. Further, a vehicle retailer may actuate a delivery-indicating signal once the vehicle has been delivered. | 09-24-2009 |
20090240420 | VARIABLE VALVE SYSTEM, AND ENGINE SYSTEM AND VEHICLE INCLUDING THE SAME - A cam sensor is provided in a position opposing one surface side of a cam driven sprocket in a valve timing control device. When the valve timing control device is in a high revolution state, a weight is pivoted by centrifugal force caused by the rotation. This allows a projection at the weight to be detected by the cam sensor. In this case, for each rotation of the valve timing control device, the projection of the weight passes the detectable position of the cam sensor and a pulse is generated in a cam signal to be transmitted from the cam sensor to an ECU. | 09-24-2009 |
20090240421 | FUEL CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A fuel control device for an internal combustion engine determines that the internal combustion engine is in a transient state, by a criterion D, and makes fuel correction, where the transient-state criterion D is set to be a more relaxed criterion (=|ΔTHaf|) when forcible modulation control is being performed, compared with a normal criterion (=|ΔTHn|) used when the forcible modulation control is not being performed. | 09-24-2009 |
20090248271 | Control Apparatus for Combustion Engine of Premixed Compression Self-ignition type - At high temperature, namely, when the temperature of intake air is higher than a predetermined normal temperature range, an ECU ( | 10-01-2009 |
20090248272 | Method for operating fuel injection system - A machine is disclosed. The machine may have an engine having a combustion chamber. The machine may also have a first sensor configured to generate a first signal indicative of a speed of the combustion engine. Additionally, the machine may have a second sensor configured to generate a second signal indicative of a desired supplied fuel quantity. The machine may also have a counter configured to generate a third signal indicative of a count. Additionally, the machine may have a fuel injection system having a controller. The controller may be configured to, based on the first, second, and third signals, select one of a plurality of shot modes and generate a corresponding fourth signal. The fuel injection system may also have a fuel injector configured to, based on the fourth signal, inject a quantity of fuel into the combustion chamber. | 10-01-2009 |
20090248273 | Method And Device For Adapting The Valve Characteristic Of A Fuel Injection Valve - The method and the device serve to adapt the valve characteristic of a fuel injection valve, which has a piezoelectrically driven nozzle needle and by which fuel is injected directly into the combustion chamber of an internal combustion engine, to production-related or age-related variations in the injection behaviour. The activation energy and the needle stroke of the fuel injection valve are controlled in such a way that the engine torque in the case of a fuel injection valve with a reference characteristic would not vary. Here, if an actually occurring variation in the engine torque is detected, then by varying the gradient of the activation-energy/valve-stroke characteristic curve of the fuel injection valve, the engine torque is matched to the engine torque generated with an injection valve with a reference characteristic. | 10-01-2009 |
20090248274 | FUEL INJECTION CONTROLLER FOR ENGINE - A fuel injection controller for an engine that injects fuel to an inlet passage in an upstream side of an inlet valve from a fuel injection unit, includes: a first calculator, configured to calculate a basic fuel injection quantity from the fuel injection unit based on an operating condition of the engine; a second calculator, configured to calculate a first direct transport rate of fuel directly transported into a cylinder of the fuel injected from the fuel injection unit when the inlet valve is closed; a third calculator, configured to calculate a second direct transport rate of fuel directly transported into a cylinder of the fuel injected from the fuel injection unit when the inlet valve is opened; and a corrector, configured to correct the basic fuel injection quantity based on the first direct transport rate and the second direct transport rate. | 10-01-2009 |
20090248275 | FUEL SUPPLY SYSTEM AND METHOD FOR SUPPLYING FUEL - A fuel supply system supplies composite fuel containing alcohol and gasoline to multiple cylinders of an internal combustion engine. The composite fuel includes main-fuel and sub-fuel. The sub-fuel is lower than main-fuel in concentration of alcohol. Each of multiple first fuel injection valves is provided to each of the cylinders for injecting fuel. Each of multiple second fuel injection valves is provided to each of the cylinders for injecting fuel. A fuel inlet portion supplies at least sub-fuel to each of the first fuel injection valves and each of the second fuel injection valves. A selector control unit selects one of main-fuel and sub-fuel supplied through the fuel inlet portion to each of the first fuel injection valves. | 10-01-2009 |
20090248276 | FUEL INJECTOR WITH BUILT-IN FUEL PRESSURE SENSOR - A fuel injector for an internal combustion engine is provided which has a fuel supply path and a nozzle chamber. The fuel supply path extends a spray hole. The nozzle chamber is defined in the fuel supply path. A nozzle is disposed within the nozzle chamber to establish or block a fluid communication between the fuel supply path and the spray hole. A fuel pressure sensor is installed in the fuel injector so as to be exposed to the fuel in the nozzle chamber. Specifically, the fuel pressure sensor is located closer to the spray hole than a prior art structure in which the fuel pressure sensor is installed in a fuel supply pipe, thus resulting in increased accuracy in measuring a change in pressure of the fuel arising from the spraying of the fuel from the spray hole. | 10-01-2009 |
20090248277 | MULTICYLINDER ENGINE AND METHOD FOR CONTROLLING THE SAME - In some cylinder deactivation modes (e.g. virtual V-four operation mode in which two cylinders of a V-six engine are deactivated), ignition/combustion may take place in operating cylinders at uneven intervals. In this case, the output torque varies between the immediately subsequent operating cylinders after the deactivated cylinders in the firing order and the other operating cylinders. A multicylinder engine includes an ignition timing adjustment unit. When the ignition takes place in the operating cylinders at uneven intervals during cylinder deactivation, the ignition timing adjustment unit adjusts ignition timing in each of the operating cylinders to smooth the output torque of the operating cylinders. | 10-01-2009 |
20090248278 | MULTI-CYLINDER ENGINE - A multi-cylinder engine is configured to be able to perform a selected cylinder operation in which combustion is stopped in some cylinders. The multi-cylinder engine includes an ignition-timing adjustment section. This ignition-timing adjustment section retards ignition timing of each operating cylinder when the number of operating cylinders is small or when the engine operates in a selected cylinder operation mode in which explosion occurs at irregular intervals. In such a case, the peak of cylinder internal pressure is lowered by ignition timing retard. Thus, vibration and noise can be suppressed effectively. | 10-01-2009 |
20090254261 | FUEL INJECTION CONTROL DEVICE FOR DIESEL ENGINE - An electronic control unit | 10-08-2009 |
20090259386 | Apparatus for and Method of Controlling Internal Combustion Engine Equipped With Turbocharger - A compressor flow rate is calculated using a compressor model, which is the physical model of a compressor. A plurality of the compressor models are provided, and the compressor model used for calculating the compressor flow rate is changed in accordance with an operational condition of an internal combustion engine. | 10-15-2009 |
20090259387 | Apparatus and method for Controlling a Homogeneous Charge Compression-Ignited Internal-Combustion Engine - In a homogeneous charge compression-ignited internal-combustion engine, based on information regarding the operational state of the engine, a combustion mode switching discriminator selects a homogeneous charge compression-ignited combustion mode if engine operating conditions allow homogeneous charge compression-ignited combustion. If not, the combustion mode switching discriminator selects a spark-ignited combustion mode. Immediately after switching from spark-ignited combustion to homogeneous charge compression-ignited combustion, a combustion mode switching corrector outputs switching correction values for operating quantities for homogeneous charge compression-ignited combustion. The correction values are used to adjust the operating quantities for homogeneous charge compression-ignited combustion, and new operating quantities obtained from the adjustments are output as control quantities from a combustion mode selector. | 10-15-2009 |
20090259388 | Supercharged internal combustion engine system - A supercharged internal combustion engine system wherein during periods of high power demand the weight of combustion chamber charge is increased by cooling a portion of intake air in a turboexpander using high-pressure air from a storage tank. In addition to increasing engine output power, cold air intake also reduces engine pre-ignition (knocking) thereby reducing emissions. Mechanical energy produced during expansion of high-pressure air may be used to operate a turbocompressor, which compresses intake air and further increases charge weight. Effective supercharging is achieved even at low engine speeds. One of the objects of the invention is to obtain more power from small displacement ICE and thus providing automotive vehicles with sufficient acceleration in addition to good fuel economy. Another object of the invention is to enhance turbocharged engines and reduce their response lag. Air storage tank may be recharged using energy recovered during vehicle deceleration. | 10-15-2009 |
20090259389 | CONTROL APPARATUS FOR CONTROLLING BOTH FUEL INJECTION SYSTEM AND EXHAUST GAS CLEANING SYSTEM - A control apparatus is disclosed which controls both a fuel injection system and an exhaust gas cleaning system for an internal combustion engine. The fuel injection system includes at least one fuel injector for injecting fuel from a fuel source into a cylinder of the engine. The exhaust gas cleaning system includes a fuel adding device for adding fuel from the fuel source to the exhaust gas from the engine. The control apparatus includes determining means and stopping means. The determining means determines whether operation of the fuel adding device for adding the fuel to the exhaust gas interferes with control by the control apparatus of the fuel injection system. The stopping means stops the operation of the fuel adding device when it is determined by the determining means that the operation of the fuel adding device interferes with the control by the control apparatus of the fuel injection system. | 10-15-2009 |
20090265076 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - To improve accuracy of learning of a full-close reference position of a throttle valve while suppressing deterioration in startability and mechanical durability and power consumption, an ECU performs position learning processing and learning permission judgment processing as a part of opening and closing control for the throttle valve. In the learning permission judgment processing, the ECU judges whether all of a first learning permission condition, a second learning permission condition, and a third learning permission condition are satisfied. The third learning permission condition is a condition judged by the ECU as being satisfied when intake passage pressure MP exceeds a predetermined value kMP registered in the ECU in advance. The predetermined value kMP is a value for excluding an error due to negative pressure from throttle opening TP detected by a throttle opening sensor. | 10-22-2009 |
20090265077 | CONTROL DEVICE FOR VARIABLE VALVE TIMING APPARATUS - A control device for a variable valve timing apparatus that changes valve timing of at least one of an intake valve and an exhaust valve of an internal combustion engine includes an actual valve timing computing unit and a valve timing controlling unit. The actual valve timing computing unit computes actual valve timing. The valve timing controlling unit controls the variable valve timing apparatus to maintain present valve timing during starting of the internal combustion engine before the actual valve timing computing unit becomes capable of computing the actual valve timing. The valve timing controlling unit controls the variable valve timing apparatus such that the actual valve timing becomes target valve timing during the starting of the internal combustion engine after the actual valve timing computing unit becomes capable of computing the actual valve timing. | 10-22-2009 |
20090265078 | METHOD AND DEVICE FOR OPERATING AN INTERNAL COMBUSTION ENGINE AND INTERNAL COMBUSTION ENGINE - A method and a device for operating an internal combustion engine and an internal combustion engine are described, the fuel being injectable directly into a combustion chamber in particular via at least one first injector and also being injectable into an intake manifold in particular via at least one second injector. For injection of fuel in a full-load operating state of the internal combustion engine, a first selection is made from the at least one first injector and the at least one second injector having a first metering range, including a full-load injection quantity required for the full-load operating state. For injection of fuel in a partial-load operating state of the internal combustion engine, a second selection is made from the at least one first injector and the at least one second injector having a second metering range, including the adjustment of a minimum fuel injection quantity required for operating the internal combustion engine. The first selection and the second selection are made differently, in such a way that only the metering range of the first selection includes the full-load injection quantity and/or that only the metering range of the second selection covers the minimum fuel injection quantity required for operating the internal combustion engine. | 10-22-2009 |
20090265079 | APPARATUS FOR CONTROLLING ENGINE USING CRANK SIGNAL AND CAM SIGNAL - In an apparatus for controlling an engine, an input switching unit switches an input signal to be inputted to an input path from a crank signal to a cam signal when it is determined that the crank signal is abnormal. An event signal generating unit generates a crank-input event signal while it is determined that the crank signal is abnormal by an abnormality determining unit. The crank-input event signal has a level that repetitively changes in a predetermined direction. Each level change of the crank-input event signal is synchronized with a corresponding level change of the crank signal. A monitoring unit monitors a level change of the crank-input event signal while it is determined that the crank signal is abnormal by the abnormality determining unit. | 10-22-2009 |
20090265080 | AUTOMOTIVE TURBOCHARGER SYSTEMS - A turbocharger system comprising first and second turbochargers, configured in series, where the turbochargers hand over control from one turbocharger to the other, which incorporates switching adjustment terms at the point of transition to ensure a smooth transition. | 10-22-2009 |
20090271089 | Reference Signal Generator and Method - A reference signal generator generating a reference signal for high-resolution measurement/control in real time includes a means for calculating the rotational trend, e.g. increase/decrease in the r.p.m., of an engine when a first tooth is detected by an angle sensor at the (n−1)-th cycle according to the mutual relation between the time interval between the first tooth and a second tooth just before the first tooth at the (n−1)-th cycle of the engine rotation and the time interval between the first tooth and a third tooth just after the first tooth, a rotation time predicting means for predicting the time interval between the first tooth and the third tooth at the n-th cycle by reflecting the rotational trend on the time interval between the first tooth and the second tooth at the n-th cycle, and a means for generating a reference signal by dividing a predicted time interval in correspondence with a predetermined angle resolution during the time after the first tooth is detected by the angle sensor at the n-th cycle till the third tooth is detected by the same. | 10-29-2009 |
20090271090 | SYSTEM AND CONTROL METHOD FOR SELECTING FUEL TYPE FOR AN INTERNAL COMBUSTION ENGINE CAPABLE OF COMBUSTING A PLURALITY OF FUEL TYPES - A system and method for improving fuel usage of a dual fuel engine is described. Fuel type is delivered to engine cylinders in response to operating conditions. | 10-29-2009 |
20090271091 | FUEL INJECTION CONTROL APPARATUS AND FUEL INJECTION CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - A fuel injection control apparatus for an internal combustion engine includes a fuel injection portion that performs each of first fuel injection for performing stratified-charge combustion, and second fuel injection for performing homogeneous-charge combustion; and an injection distribution ratio control portion that controls an injection distribution ratio. The injection distribution ratio control portion controls the injection distribution ratio to a target injection distribution ratio set based on a predetermined engine condition after start of the engine. An initial injection distribution ratio is set based on an engine condition at a time of start of the engine, and a change in the injection distribution ratio is controlled by referring to the engine condition after the start of the engine, when the injection distribution ratio is changed from the initial injection distribution ratio to the target injection distribution ratio. | 10-29-2009 |
20090271092 | DIRECT INJECTION SPARK IGNITION INTERNAL COMBUSTION ENGINE AND METHOD FOR CONTROLLING SAME - A direct injection spark ignition internal combustion engine includes a fuel injection valve and fuel injection control device that controls fuel injection such that a fuel is injected from an upper area of an engine cylinder toward a top face of a piston through the fuel injection valve. The fuel injection control device switches a thrust force of the fuel injected from the fuel injection valve between at least two levels such that the thrust force of the injected fuel becomes weaker when the position of the piston is high than when the position of the piston is low. | 10-29-2009 |
20090276141 | Feed-Forward Control in a Fuel Delivery System & Leak Detection Diagnostics - A method for operating a fuel delivery system with a first pressure pump fluidly coupled to a second higher pressure pump and a fuel rail including adjusting pump operation of at least one of the first and second pumps during engine starting, the variation based on engine starting conditions. When the pressure rise during the start is correlated to an expected response, further adjusting pump operation based on measured fuel pressure, and when pressure rise during the start is less than the expected response, further adjusting pump operation independent from measured fuel pressure. | 11-05-2009 |
20090276142 | ENGINE VALVE OPERATION - Various approaches are described for operating an engine in a vehicle having variable valve operation for an intake and/or exhaust valve of the cylinder. In one example, a method comprises delivering a first fuel to a cylinder of the engine from a first injector; delivering a second fuel to the cylinder of the engine from a second injector, where a composition of at least one of the first or second fuels varies; and adjusting the variable valve operation responsive to the varying composition and further based on variation in the delivery of the first or second fuel. | 11-05-2009 |
20090276143 | METHOD FOR ESTIMATION OF INDICATED MEAN EFFECTIVE PRESSURE FOR INDIVIDUAL CYLINDERS FROM CRANKSHAFT ACCELERATION - A method for inferring Indicated Mean Effective Pressure as total transient indicated engine torque in an internal combustion engine, comprising the steps of acquiring at least one crankshaft time stamp for use in determining a cylinder-specific engine velocity; calculating an incremental change in engine kinetic energy from the previously fired cylinder (j−1 | 11-05-2009 |
20090276144 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A fuel supply system includes a first non-return valve for a low-pressure delivery connection pipe and a second non-return valve for a pump supply pipe. The former non-return pipe does not allow fuel to flow from the low-pressure delivery pipe to the low-pressure supply pipe. The second non-return valve does not allow fuel to flow from pump supply pipe to the low-pressure supply pipe. Upon determining that air purging is necessary, an engine ECU operates a feed pump for approximately one second and then opens, for dummy injection, an in-cylinder injector and an intake manifold injector. | 11-05-2009 |
20090281707 | FUEL PRESSURE CONTROLLER AND FUEL PRESSURE CONTROL SYSTEM - An ECU estimates a variation amount of fuel which is actually suctioned by a fuel pump based on a fuel pressure in a common rail. Even though the fuel pressure in the common rail deviates from a target fuel pressure, when the estimated variation amount of fuel is substantially zero, an energization quantity to a solenoid of a flow control valve is compulsorily reduced. | 11-12-2009 |
20090281708 | PROCEDURE AND DEVICE FOR DETERMINING THE COMPOSITION OF A FUEL MIXTURE - The procedure and device of the present disclosure enable an accurate determination of the composition of the fuel mixture at a self-igniting combustion engine on the basis of present sensor signals. The procedure and device of the present disclosure furthermore enable the detection and compensation of a combustion that is unstable due to the composition of the fuel mixture. | 11-12-2009 |
20090287391 | Engine Fuel Control System - A fuel control system is provided. The fuel control system includes an electronic control system coupled to a pair of control valves for blending pipeline fuel with waste fuel at a blend ratio for controlling fuel flow to an internal combustion engine. The fuel control system can estimate energy content of the fuel mixture to compensate the blend ratio. The fuel control system can use engine operational parameters to compensate the blend ratio. Typically, the system will use the operational parameter of output power or exhaust emissions to compensate the blend ratio. Further, the fuel control system can prioritize variation from the blend ratio or variation from a desired power output when the blend ratio cannot generate the desired power output. The fuel control system can also be equipped with engine speed/load controls, misfire, ignition timing and knock detection capabilities. | 11-19-2009 |
20090287392 | METHOD AND SYSTEM FOR CLOSED LOOP LAMBDA CONTROL OF A GASEOUS FUELED INTERNAL COMBUSTION ENGINE - A method and system in accordance with the present invention provides for improved lambda control utility that includes the following: the introduction of an inner control loop to the lambda control based on the pressure of the gaseous fuel downstream of the fuel control valve and upstream of the carburetor relative to the pressure of the air at the inlet of the carburetor, and the introduction of operating point based dynamic parameter scheduling in the lambda feedback control loop. The combination of these enhancements, working together, will allow an engine system to consistently meet the mandated performance requirements via tighter lambda control in the presence of set point changes and load disturbances. | 11-19-2009 |
20090287393 | DIRECT FUEL INJECTION CONTROL WITH VARIABLE INJECTOR CURRENT PROFILE - A direct fuel injection control for an internal combustion engine includes first and second controllers. The first controller has a microprocessor and generates injection timing and duration signals on injector select lines. The second controller is a state machine including injector controls that receive the injection timing and duration signals and control injector current according to sets of injector current profile defining parameters received from the first controller on a serial bus and stored in register sets in the second controller. The second controller includes switching apparatus that can quickly change the connection of each injector control between different register sets to select different injector current profiles in successive injection pulses. Several alternative ways of providing register select signals are disclosed, and these may be incorporated in the same second controller for selection by the first controller. | 11-19-2009 |
20090287394 | IDLING ROTATION SPEED CONTROL APPARATUS - There is provided an idling rotation speed control apparatus that can reduce the development man-hours and the cost and that enables operation during a trolling cruise to be readily performed. The idling rotation speed control apparatus includes an engine rotation speed detection means, an engine temperature detection means, an engine idling driving state detection means, an engine load detection means, an intake air amount adjusting means for adjusting an amount of intake air during an idling state, and an ECU for controlling the intake air amount adjusting means during idling driving. The ECU includes a basic torque ratio calculation function for calculating a ratio of torque to be generated, to engine maximal torque, that is necessary for making the engine steadily operate at a target rotation speed during idling driving; a target torque ratio calculation function for correcting the basic torque ratio, in accordance with a difference between a target rotation speed and an engine rotation speed, and calculating a target torque ratio; a target air amount calculation function for calculating an air amount necessary for generating the target torque ratio; and an intake air amount adjusting function for controlling the intake air amount adjusting means, based on the calculated air amount. | 11-19-2009 |
20090292441 | Control Apparatus for Internal Combustion Engine - A control apparatus ( | 11-26-2009 |
20090292442 | APPROACH FOR ENHANCING EMISSIONS CONTROL DEVICE WARMUP IN A DIRECT INJECTION ENGINE SYSTEM - A method of controlling fuel supplied to an engine of a vehicle is provided. The vehicle includes a first fuel storage tank to store a first type of fuel, a second fuel storage tank to store a second type of fuel, and an emissions control device. The engine includes at least one cylinder having a direct injection fuel injector being selectively supplied with the first type of fuel from the first fuel storage tank and the second type of fuel from the second fuel storage tank. The method includes supplying the first type of fuel from the first fuel storage tank to the direct injection fuel injector in response an engine start condition of the vehicle, and supplying the second type of fuel from the second fuel storage tank to the direct injection fuel injector, in response to an increase in engine output exceeding a threshold increase or a temperature of the emissions control device exceeding a threshold temperature. | 11-26-2009 |
20090292443 | APPROACH FOR REDUCING OVERHEATING OF DIRECT INJECTION FUEL INJECTORS - A method of controlling fuel supplied to an engine is provided. The engine includes at least one cylinder having a port injection fuel injector being supplied with fuel from at least one of a first fuel storage tank and a second fuel storage tank and a direct injection fuel injector being selectively supplied with fuel from one of the first fuel storage tank and the second fuel storage tank. The method includes at a first condition, supplying at least some of a second type of fuel from the second fuel storage tank to the direct injection fuel injector and supplying at least some of a first type of fuel from the first fuel storage tank to the port injection fuel injector, and at a second condition, supplying at least some of the first type of fuel from the first fuel storage tank to the direct injection fuel injector. | 11-26-2009 |
20090292444 | BOOSTED ENGINE CONTROL RESPONSIVE TO DRIVER SELECTED PERFORMANCE - Various systems and methods are described for operating an engine in a vehicle in response to a driver performance/economy mode. One example method comprises delivering a first fuel to a cylinder of the engine from a first injector, delivering a second, different, fuel to the cylinder of the engine from a second injector, varying a relative amount of said first and second fuel as an operating condition varies; and adjusting delivery of at least said second fuel based on a driver-selected performance mode. | 11-26-2009 |
20090292445 | Method for determining the quality of the fuel for an internal combustion engine - A method for determining the quality of the fuel for an internal combustion engine, in particular a direct-injection internal combustion engine in a vehicle, which is characterized by the following be performed: the internal combustion engine is operated in idle mode under predefinable operating conditions, the curve of the injection quantity, necessary for idling, over the engine temperature is determined, and the fuel quality is inferred from the curve of the injection quantity over the engine temperature. | 11-26-2009 |
20090292446 | CONTROL APPARATUS AND CONTROL METHOD OF INTERNAL COMBUSTION ENGINE - A control apparatus of an internal combustion engine performs control to warm up a catalyst. More specifically, the control apparatus keeps a wastegate valve open when the temperature of the catalyst is less than a predetermined temperature and closes the wastegate valve when the temperature of the catalyst becomes equal to or greater than the predetermined temperature. The control apparatus executes control to increase and decrease the fuel injection quantity such that the internal combustion engine alternately switches between lean burn and rich burn when the wastegate valve is closed. Accordingly, rich gas and lean gas can be reliably mixed in the catalyst, and CO can be reliably combusted in the catalyst. Therefore, the catalyst can be promptly warmed up while CO, HC, and the like can be appropriately suppressed from flowing through the catalyst. | 11-26-2009 |
20090292447 | FUEL CONTROL FOR INTERNAL COMBUSTION ENGINE - A fuel injection control for an internal combustion engine is provided. Fuel is injected into a cylinder of the internal combustion engine. The fuel injection is divided into main injection and pilot injection in advance of the main injection. An actual compression ignition timing is detected based on a combustion state in the cylinder. A fuel injection timing of the main injection is controlled based on the actual compression ignition timing. An amount of heat release based on the pilot injection is computed. A fuel injection amount of the pilot injection is corrected based on the computed heat release amount. | 11-26-2009 |
20090292448 | Engine Controller - An engine controller capable of optimizing both the air-fuel ratio and the ignition timing to provide HC-minimized performance under the relevant driving conditions (environmental conditions) in order to minimize the amount of HC emitted from an engine at the time of start-up (before catalyst activation) is provided. The engine controller includes: air-fuel ratio control means for controlling the air-fuel ratio to be within a predetermined range (for example, 14.5 to 16.5) when the engine is operated at a certain driving condition (for example, in a state in which the catalyst is not activated such as the time of starting a cooler, or idling time); and ignition timing correction means for correcting the ignition timing to the retard side when the engine is operated at the certain driving condition and the air-fuel ratio is within the predetermined range. | 11-26-2009 |
20090292449 | POWER OUTPUT APPARATUS, VEHICLE EQUIPPED WITH THE SAME, AND METHOD OF CONTROLLING POWER OUTPUT APPARATUS - In a power output apparatus, when the fuel vapor concentration is high and the target purge rate is high, an operating point on a purge priority operating line is selected as a target operating point of an engine. As a result, the intake manifold negative pressure greater than that when an operating point on an optimum fuel efficiency operating line is selected, so that the flow rate of purge gas released from a canister is increased. When the fuel vapor concentration does not fall within a high-concentration range, the necessity to immediately purge fuel vapor trapped in the canister into the intake pipe is low, and thus an operating point on the optimum fuel efficiency operating line is selected to keep the engine operating at high fuel efficiency. | 11-26-2009 |
20090292450 | Method and Vehicle Electric System for a Motor Vehicle With a Pre-Emptive Temporary Torque Restriction of the Internal Combustion Engine - A method for reducing energy consumption of a motor vehicle having an internal combustion engine and a vehicle electric system, to which at least a first electric consumer is connected. To achieve an efficient vehicle electric system with a reduced energy consumption, the internal combustion engine is operated in a first operating mode with a first injection quantity and a first ignition timing. In a second operating mode, the internal combustion engine is operated with a second injection quantity that is higher than the first injection quantity and with a second ignition timing. The second ignition timing at the second injection quantity is not as favorable to the performance of the internal combustion engine as the first ignition timing. In a third operating mode, the internal combustion engine is operated with the second injection quantity and predominantly the first ignition timing so that the performance of the internal combustion engine is higher in the third operating mode than in the second operating mode. A driving situation detection device recognizes an imminent specific driving situation on the basis of the previous behavior of the driver in controlling the vehicle and/or the behavior of the vehicle in advance and initiates a switch in the operating modes of the internal combustion engine from the first operating mode to the second operating mode. | 11-26-2009 |
20090299603 | Control Method and Control Apparatus for Internal Combustion Engine - When the engine load is in a high-load zone, an absolute value control is executed, wherein the actual values of valve timings of an intake valve and an exhaust valve and a valve duration of the intake valve are controlled to coincide with respective target values set based on the operating state of an internal combustion engine. When the engine load is in a low-load zone, a relative value control is executed, wherein an actual value of a valve overlap amount of the intake valve and the exhaust valve is controlled to coincide with a target valve overlap amount obtained based on the target values. Therefore, a control method for the internal combustion engine that is appropriate for the operating state of the engine when the operating state of the engine is in transition is obtained. | 12-03-2009 |
20090299604 | Method for Operating an Internal Combustion Engine - In a method for operating an internal combustion engine, the fuel is supplied to at least one combustion chamber via at least one injector, which method includes the following steps: a) a total injection is divided into a basic injection and at least one measured injection; b) the injection time of the measured injection is successively decreased and the injection time of the basic injection is successively increased so that a total injection quantity ascertained from a valve characteristic curve remains the same. | 12-03-2009 |
20090299605 | FUEL IGNITION QUALITY DETECTION - An engine control system comprises a fuel diagnostic module and a fuel control module. The fuel diagnostic module determines a pressure-ratio difference average (PRDA) based on a pressure in at least one cylinder and determines a cetane number (CN) of a fuel based on the PRDA. The fuel control module actuates fuel injectors based on the CN. | 12-03-2009 |
20090299606 | METHOD AND SYSTEM FOR CONTROLLING A HIGH PRESSURE PUMP, PARTICULARLY FOR A DIESEL ENGINE FUEL INJECTION SYSTEM - In a fuel injection system of an internal combustion engine, including, but not limited to a high pressure pump adapted to deliver a fuel mass conveyed from a fuel tank to a high pressure region to which a plurality of injectors is connected, including a fuel metering device for adjusting the fuel quantity to be delivered to the high pressure region, a pressure sensor for measuring fuel pressure in the high pressure region; and an electronic control unit arranged for driving the fuel metering device through an energizing signal (Inom; Iact) as a function of the measured fuel pressure and the engine operating mode, where the electronic control unit is arranged for determining the energizing signal (Inom; Iact) for driving the fuel metering device according to a nominal characteristic curve (A) of the high pressure pump representative of a predetermined relationship between the energizing signal and the fuel mass delivered by the pump, the operating pressure is controlled by driving the fuel metering device with an energizing signal determined according to an updated characteristic curve (B) estimated by applying to the nominal characteristic curve (A) an offset between the actual energizing signal value (Iact) related to the controlled fuel mass delivered to the high pressure region in a predetermined engine operating point and a nominal energizing signal (Inom) related to the controlled fuel mass according to the nominal characteristic curve (A). | 12-03-2009 |
20090299607 | METHOD FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE WITH A TEMPERATURE-DEPENDENT INJECTION PARAMETER - In a method for controlling an internal combustion engine with direct fuel injection, an injection parameter is determined in dependence on a temperature of the internal combustion engine. The method is characterized in that a first value of the internal combustion engine temperature is determined which, in the event of changes in the operating point of the internal combustion engine, changes comparatively quickly to a value which is characteristic of the new operating point. A second value of the internal combustion engine temperature is formed which, in the event of changes in the operating point, changes comparatively slowly, and in that the injection parameter is defined in dependence on the first value and the second value. | 12-03-2009 |
20090306876 | Control system for internal combustion engine - A control system for an internal combustion engine having a plurality of cylinders and a cylinder halting mechanism for halting operation of at least one of the plurality of cylinders by stopping operation of at lease one intake valve of the at least one cylinder. The control system includes an intake air control valve for controlling an amount of air supplied to the engine. An opening of the intake air control valve is changed when performing an increase in a number of operating cylinders in an idling condition of the engine. A basic opening of the intake air control valve is switched from a first basic opening corresponding to the number of operating cylinders before the increase in the number of operating cylinders to a second basic opening corresponding to the number of operating cylinders after the increase in the number of the operating cylinders. The basic opening is corrected in the closing direction during a predetermined time period when increasing the number of operating cylinders. | 12-10-2009 |
20090312935 | METHOD AND APPARATUS FOR SUPPLYING FUEL OF LPG CAR HAVING LPI SYSTEM - Disclosed is method and apparatus for supplying fuel of LPG car having LPI system. More particularly, the present invention generates a gas fuel injection signal based on a gasoline fuel injection signal and directly injects LPG fuel within a fuel tank to a combustion chamber using the generated gas fuel injection signal to drive an engine. Therefore, an engine can be easily changed, the manufacturing cost of a duel car of LPG and gasoline can be reduced, and the manufacturing process thereof can be simplified. | 12-17-2009 |
20090312936 | Apparatus and Method for Controlling Engine - An engine controller capable of reducing torque fluctuation and the like in change between spark ignition combustion and homogeneous charge compression ignition combustion is provided. Spark ignition burning mode or homogeneous charge compression ignition burning mode is selectively set as burning mode according to the operating state of an engine. In spark ignition burning mode, a spark plug is used. In homogeneous charge compression ignition burning mode, fuel is burned utilizing pressure rise in a combustion chamber in conjunction with the ascent of a piston. The burning mode is changed between these modes. In transition for change between the spark ignition burning mode and the homogeneous charge compression ignition burning mode, the following measure is taken: a period during which the lift amount and/or the valve opening period (IVevent) of an intake valve is made smaller than a set value for the homogeneous charge compression ignition burning mode is provided. | 12-17-2009 |
20090319153 | SYSTEM AND METHOD OF FUEL SYSTEM OPTIMIZATION - A method of optimizing a fuel system on a vehicle is provided. The fuel system includes a fuel tank configured to receive and contain a quantity of fuel, and the method includes determining a property associated with the quantity of fuel contained within the fuel system, comparing the determined property with a nominal value for that fuel property, and modifying at least one vehicle sub-system setting in response to the determined fuel property. | 12-24-2009 |
20090319154 | Method and device for operating an internal combustion engine in the context of a combined direct and manifold injection, a computer program, a computer program product - In a control unit, a method, a computer program and a computer program product for operating an internal combustion engine in the context of a combined direct and manifold injection, fuel is injected by at least one first injection valve into an induction manifold and/or by at least one second injection valve directly into a combustion chamber for combustion. In at least one predefined operating state of the internal combustion engine, fuel is only injected by the at least one first injection valve into the induction manifold for a predetermined number of successive combustion cycles. In a subsequent combustion cycle, fuel is injected by the at least one first injection valve into the induction manifold and by the at least one second injection valve directly into the combustion chamber or only by the at least one second injection valve directly into the combustion chamber. | 12-24-2009 |
20090319155 | PROCEDURE AND DEVICE FOR A PRESSURE DETERMINATION - A method of determining a pressure at a dosing valve of a fuel metering device for metering fuel into an exhaust gas system of a combustion engine with a component of the combustion engine assigned to an exhaust gas system for a regeneration, a temperature impingement and/or a thermo management. The fuel is injected in a flow direction of the exhaust gas in front of the component, and metering of the fuel is determined by an injection valve from a cycle duration and a duty cycle relation for controlling a shut-off valve and the dosing valve depending on a difference pressure. The method includes determining a pressure before the dosing valve via acquisition and processing of at least one replacement value deduced from a pressure sensor signal of a pressure sensor arranged in a flow direction of the fuel behind the dosing valve for recording a measured pressure. | 12-24-2009 |
20090319156 | INTERNAL COMBUSTION ENGINE - An internal combustion engine is described herein. The engine may include a combustion chamber having a pair of intake ports arranged at one side, and an exhaust port arranged at the other side. The engine may also include a fuel injector configured to inject fuel into said combustion chamber from a side of said intake ports toward a side of said exhaust port, a variable flow restrictor capable of making flow resistance of said second intake port greater than flow resistance of said first intake port, a first spark plug arranged on a ceiling of the chamber and having its spark gap in the proximity of a center portion of said ceiling, and a second spark plug arranged on said ceiling and having its spark gap which is positioned closer to said first intake port in the axial direction of said crankshaft than said first spark plug. | 12-24-2009 |
20090326786 | METHOD AND DEVICES FOR THE CONTROL OF THE AIR-FUEL RATIO OF AN INTERNAL COMBUSTION ENGINE - The present invention fall into the field of methods and devices therefor for controlling the normalised air-fuel ratio of an internal combustion engine, otherwise known, in technical terms, as Lambda. The present invention is based on the use of the ionisation current released by a device positioned on each cylinder of said engine. This ionisation current is measured by a Control Unit equipped with a low-pass filter and electronic means which implement the invention. | 12-31-2009 |
20100004846 | IGNITION COIL MODULE FUSE DIAGNOSTIC - A control system comprising an ignition fuse diagnostic module that determines a state of an ignition fuse associated with an ignition coil of an engine cylinder, and a fuel control module that selectively operates a fuel injector associated with the engine cylinder based on the state of the ignition fuse. A method comprising determining a state of an ignition fuse associated with an ignition coil of an engine cylinder, and selectively operating a fuel injector associated with the engine cylinder based on the state of the ignition fuse. | 01-07-2010 |
20100004847 | INTERNAL COMBUSTION ENGINE CONTROL APPARATUS AND METHOD - An internal combustion engine control apparatus controls an internal combustion engine including: an exhaust passage including branch portions provided for the left and right banks and a common portion in which an exhaust gas purification device is provided; and a fuel supply system that supplies fuel to the respective engine cylinders. In the internal combustion engine, in order to recover the exhaust gas purification device, a bank control is executed in which the air-fuel ratio of the cylinders of the left bank is made rich while the air-fuel ratio of the cylinders of the right bank is made lean. The internal combustion engine is capable of running on alcohol-containing fuel and has an alcohol concentration sensor. The amount of unburned fuel to be supplied to the exhaust gas purification device during the bank control is adjusted based on the alcohol concentration in fuel. | 01-07-2010 |
20100010724 | INTERNAL COMBUSTION ENGINE CONTROL FOR IMPROVED FUEL EFFICIENCY - A variety of methods and arrangements for improving the fuel efficiency of internal combustion engines are described. Generally, selected combustion events are skipped during operation of the internal combustion engine so that other working cycles can operate at a better thermodynamic efficiency. In one aspect of the invention, an engine is controlled to operate in a variable displacement mode. In the variable displacement mode, fuel is not delivered to the working chambers (e.g. cylinders) during selected “skipped” working cycles. During active (“non-skipped”) working cycles, a maximum (e.g., unthrottled) amount of air and an optimized amount of fuel is delivered to the relevant working chambers so that the fired working chambers can operate at efficiencies closer to their optimal efficiency. A controller is used to dynamically determine the chamber firings required to provide the engine torque based on the engine's current operational state and conditions. The chamber firings may be sequenced in real time or in near real time in a manner that helps reduce undesirable vibrations of the engine. | 01-14-2010 |
20100010725 | MULTIFUEL INTERNAL COMBUSTION ENGINE AND COMBUSTION CONTROLLING METHOD THEREOF - A multifuel internal combustion engine includes: fuel characteristics determining unit that determines ignitability and anti-knocking performance of the fuel introduced into the combustion chamber CC; combustion mode setting unit that sets a compression hypergolic diffusion combustion mode when ignitability of the fuel is excellent, sets a premixed spark-ignition flame propagation combustion mode when the ignitability of the fuel is poor and anti-knocking performance is excellent, and sets a spark assist compression hypergolic diffusion combustion mode when both the ignitability and anti-knocking performance of the fuel are poor; and combustion control execution unit that makes the engine to drive in a combustion mode which is set by the combustion mode setting unit. | 01-14-2010 |
20100010726 | CONTROLLER FOR INTERNAL COMBUSTION ENGINE - At least one of a petroleum fuel and an alcohol fuel stored in a fuel tank is supplied to an internal combustion engine. Specifically, the fuel in the fuel tank is supplied to an injector by a fuel pump module. The injector injects the fuel into an intake pipe. An ECU adjusts a fuel injection quantity according to an alcohol concentration of the fuel When the fuel-supply-pressure to the injector is less than or equal to a threshold pressure, the ECU determines the fuel pump module has a malfunction. Especially, the ECU varies the threshold pressure according to the alcohol concentration of the fuel. | 01-14-2010 |
20100010727 | SYSTEM FOR SUPPLY OF LPG, METHANE, AMMONIA, AND GAS IN GENERAL FOR PETROL OR DIESEL ENGINES WITH ELECTRONIC PRESSURE REGULATOR FOR CONTINUOUS VARIATION OF THE PRESSURE OF THE FUEL SUPPLIED TO THE INJECTORS - A system for supply of LPG/methane, ammonia, or gas for supply of petrol or diesel engines, which can be connectable to the electronic control unit ( | 01-14-2010 |
20100017096 | VEHICLE STABILITY AND SURGE CONTROL - In one example, a method is described for operating an engine of a vehicle, the engine having a combustion chamber. The method may include controlling a stability of the vehicle in response to a vehicle acceleration; and adjusting dilution in the combustion chamber of the engine to reduce surge in response to the vehicle acceleration. The dilution may be adjusted by adjusting cam timing, for example. | 01-21-2010 |
20100017097 | FUEL BASED ENGINE OPERATION CONTROL - Methods are provided for operating an engine with a variable fuel blend in a cylinder, where the variable fuel blend varies a peak achievable engine torque for a given operating condition. One example method comprises selectively operating an engine actuator that affects engine torque and engine fuel economy at the given operating condition, and extending operation of the actuator to higher engine torques as a peak engine torque for the given operating condition increases. | 01-21-2010 |
20100017098 | Diagnostic Control Apparatus for Internal Combustion Engines - Disclosed is a diagnostic control apparatus for internal combustion engines capable of accurately diagnosing the presence and extent of air/fuel ratio variations in engine cylinders, even when the system has no part for detecting the air/fuel ratio in each cylinder. The diagnostic control apparatus measures the time required for the crankshaft to rotate to a specified angle for each cylinder; and based on this measured, required time, derives the 0.5 order component as the rotation fluctuation component for each two rotations of the crankshaft per each cylinder or the 1.0 order component as the rotation fluctuation component for each single rotation of the crankshaft; and also counts the number of times the 0.5 order component or 1.0 order component deviates from the preset range in the period set for each cylinder, and diagnoses an error in the output or in the air/fuel ratio for a particular cylinder when that count value exceeds a specified value. | 01-21-2010 |
20100017099 | SYSTEM AND METHOD FOR PUMP CONTROL - The present invention is a method and system for controlling a motor attached to a variable displacement pump for providing a supercritical fuel and fuel pressure to a plurality of fuel injectors of a vehicle engine. The system includes: a pump having a motor; a tachometer sensor for measuring a rotational displacement of a motor shaft and for sending a tachometer count value to a memory device; an engine control unit configured to generate a rotational displacement vs. pressure profile of the pump based on the displacement value and pressure value; an accumulator attached to the output of the pump; and a control method that allows for a look ahead and prediction of the pump requirements needed in a future cycle based on current demand to allow for an efficient fuel injection pump. | 01-21-2010 |
20100023240 | METHOD FOR CONTROLLING COMBUSTION NOISE IN A COMPRESSION-IGNITION ENGINE - Combustion noise in a compression-ignition engine is controlled by measuring in-cylinder pressure of a cylinder of the compression-ignition engine, determining a combustion noise level based on the in-cylinder pressure measurement, and modifying a combustion control parameter based on the combustion noise level. | 01-28-2010 |
20100023241 | Emissions reductions through multiple fuel injection events - A method is disclosed including operations to interpret an engine load level for a reciprocating piston internal combustion engine. In response to determining the engine load level is less than 40% of a maximum engine load level, the method further includes operations to performing a first fuel injection event including less than 25% of a combustion fuel amount, the first fuel injection event occurring before 10 degrees after top dead center (TDC), to perform a second fuel injection event including between 15% and 65% of the combustion fuel amount, the second fuel injection event occurring after 10 degrees after TDC, and to perform third fuel injection event comprising between 10% and 85% of the combustion fuel amount, the third fuel injection event occurring before 63 degrees after TDC. | 01-28-2010 |
20100023242 | VALVE TIMING CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A valve timing control apparatus for an internal combustion engine includes a variable valve timing mechanism. The valve timing control apparatus sets target valve timing based on an operational state of the engine. The valve timing control apparatus detects actual valve timing. The valve timing control apparatus computes a control amount based on a deviation between the target valve timing and the actual valve timing and based on a hold control amount. The valve timing control apparatus determines whether a learning execution condition for executing a learning operation of the hold control amount is satisfied based on a change direction of the detected actual valve timing. The valve timing control apparatus executes the learning operation when the learning execution condition is satisfied. | 01-28-2010 |
20100023243 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE - A method for operating an internal combustion engine, in which at least one first influence variable influences a state variable of the air in the intake manifold. The state variable of the air in the intake manifold is ascertained while taking into account a plurality of influence variables, which influence the state variable, while using a first physical relationship. The same state variable is ascertained while taking into account a plurality of influence variables, which influence the state variable of the air in the intake manifold while using a second physical relationship. A specific adjusting parameter, which represents a specific error in the influence variable, is linked to each influence variable. The adjusting parameters are learned and monitored in the operation of the internal combustion engine. A certain adjusting parameter is learned and monitored in an operating range of the internal combustion engine in which the other adjusting parameters have a lesser influence on the state variable than that certain adjusting parameter, and in this context, the certain adjusting parameter is adjusted in such a way that the state variable ascertained by using the first physical relationship is at least approximately equal to the state variable ascertained by using the second physical relationship. | 01-28-2010 |
20100030448 | METHOD AND SYSTEM FOR REDUCING UNBURNED FUEL AND OIL FROM EXHAUST MANIFOLDS - Methods and systems are provided for operating an internal combustion engine having an exhaust system and a plurality of cylinders that utilize fuel and/or oil for combustion and engine lubrication purposes. In one example, a method comprises, while the engine is operating in a low-load mode or an idle mode, successively operating distinct subsets of said cylinders at a cylinder load sufficient to increase an exhaust temperature for burning unburned fuel and/or oil deposited in the cylinders or engine exhaust system. Herein, each successively operated subset comprises at least one but fewer than all of the plurality of cylinders, and the cylinders that are not currently being operated in a subset are operated in a low- or no-fuel mode. | 02-04-2010 |
20100030449 | FUEL INJECTION CONTROL DEVICE OF AN INTERNAL COMBUSTION ENGINE - An ECU executes a program including injecting fuel only by an intake passage injector when an engine is idling, starting an addition-type PFI timer, resetting the PFI timer when a count of the PFI timer reaches a set value that is set shorter as the fuel is lighter in fuel property, and injecting the fuel only by an in-cylinder injector. | 02-04-2010 |
20100030450 | METHOD FOR CONTROLLING A V-TYPE INTERNAL COMBUSTION ENGINE - A method for controlling a V-type internal combustion engine with a separate common rail system on an A side and a separate common rail system on a B side of the internal combustion engine, in which a set injection quantity is computed at least as a function of an actual speed relative to a set speed. An injection time for controlling an A-side injector is computed by an injector map as a function of the set injection quantity and as a function of an A-side actual rail pressure. The injection time for controlling a B-side injector is computed by the same injector map as a function of the set injection quantity and as a function of a B-side actual rail pressure. | 02-04-2010 |
20100036582 | Internal Combustion Engine Camshaft Scheduling Strategy for Maximum Pumping Loss Reduction - A method of camshaft scheduling is disclosed which includes measuring a driver input; calculating a driver requested torque based on a measured driver input; and scheduling the camshaft based upon the driver requested torque. In one example, the driver input is an accelerator pedal position, which is related to a percentage of driver torque requested. The cam position is selected based on the driver requested torque and the cam position is adjusted to provide one of a best fuel economy cam position and a best torque output cam position based upon the percentage of driver torque requested. | 02-11-2010 |
20100036583 | Method and apparatus for controlling an engine capable of operating on more than one type of fuel - A control system for an engine capable of operating on more than one type of fuel includes an engine control unit that determines a default fuel volume to be injected into the engine based on relevant engine parameters and characteristics of a default fuel type. A default mass fuel flow rate is derived from the default fuel volume and relevant engine parameters. The actual mass fuel flow rate into the engine is inferred from the mass air flow rate into the engine and the exhaust gas air-to-fuel ratio, which is determined using a wide range oxygen sensor. A fuel correction factor is calculated from the default mass fuel flow rate and the inferred mass fuel flow rate. The fuel correction factor is used to increment or decrement the default fuel volume in a subsequent fuel injection cycle thereby incrementing or decrementing the inferred mass fuel flow rate toward the default mass fuel flow rate. | 02-11-2010 |
20100036584 | Return-flow electronic fuel pressure regulator - A return-flow electronic fuel pressure regulator for a fuel-injected engine fuel system is plumbed to the fuel rail and return line of the fuel system. The regulator includes a fill chamber connected to the fuel rail, a return chamber connected to the return line and a return reservoir disposed between the fill chamber and return chamber. Fuel flow from the fill chamber to the return reservoir is regulated via a diaphragm valve assembly. Fuel flow from the return reservoir to the return chamber is subject to restriction by an adjustable valve. Integral comparative pressure sensing means measures the fuel pressure drop between the return reservoir and return chamber. An electronic control module, preferably programmed to maintain a constant pressure drop between the return reservoir and return chamber, receives a signal from the pressure sensing means and outputs a power supply signal to the fuel pump to control pump speed. | 02-11-2010 |
20100036585 | Programmable fuel pump control - A programmable fuel pump control for a fuel system includes integral sensors, an expansible fill chamber and a return chamber. The control can be used in either a return-style of returnless fuel system. The expansible fill chamber is in fluid communication with the fuel rail. A restrictable fuel passage connects the fill chamber to a return chamber that in a return-style fuel system can be optionally connected to a return line. The control includes an integral pressure transducer measuring fuel pressure relative to intake manifold pressure and one or more adjunct sensors that allow real time control of a fuel pump speed, and therefore fuel pressure, as a function of engine performance. | 02-11-2010 |
20100036586 | METHOD AND SYSTEM FOR ADJUSTING THE OPERATION PARAMETERS OF AN INJECTION THERMAL ENGINE WHILE REDUCING EFFLUENTS - The invention relates to a method for adjusting the operation parameters of an injection internal combustion engine ( | 02-11-2010 |
20100036587 | DEVICE FOR CONTROLLING INTERNAL COMBUSTION ENGINES - A device for controlling an internal combustion engine which uses, as the fuel, a heavy fuel, a light fuel, an alcohol fuel and a mixture thereof, comprising a heavy fuel/light fuel ratio detector | 02-11-2010 |
20100042307 | FUEL INJECTION DEVICE AND CONTROL METHOD THEREFOR - This device is applied to an internal combustion engine that has a fuel injection valve for injecting fuel directly into the combustion chamber, a supercharger and an exhaust purification device. As a fuel injection from the fuel injection valve, a post-injection is executed separately from the fuel injection for torque generation. The device includes an air amount sensor provided on the intake passageway upstream of the supercharger, and a pressure sensor provided on the intake passageway downstream of the supercharger. A correction term calculated based on the rate of change of the air pressure detected by the pressure sensor. An upper-limit injection amount is set based on the engine rotation speed, the passageway air amount detected by the air amount sensor, the correction term and a main injection amount. Using the upper-limit injection amount, a target post-injection amount is restricted. | 02-18-2010 |
20100049419 | Control Apparatus for Vehicle - A target throttle opening degree computing device of a control apparatus computes a target throttle opening degree of a throttle valve and includes a phase lead compensator. A filter filters the target throttle opening degree to provide an ultimate target throttle opening degree, which is used to drive a drive motor to adjust an opening degree of the throttle valve. | 02-25-2010 |
20100049420 | ACTIVE COMPRESSION RATIO MODULATION THROUGH INTAKE VALVE PHASING AND KNOCK SENSOR FEEDBACK - An internal combustion engine includes a piston reciprocable within a cylinder, a phase controllable valvetrain configured to alter the effective compression ratio of the engine, and a knock sensor. A method for controlling the engine includes controlling the valvetrain to a first effective compression ratio whereat knock is detectable by the knock sensor and thereafter controlling the valvetrain to reduce the effective compression ratio to a point whereat knock is no longer detectable. | 02-25-2010 |
20100049421 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE, AND CONTROL METHOD THEREFOR - A control device (engine control device | 02-25-2010 |
20100049422 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - In an internal combustion engine control device having an air-fuel ratio control device that controls the fuel injection amount so that the air-fuel ratio of exhaust gas of an internal combustion engine approaches a target stoichiometric air-fuel ratio, the control device further includes a device that calculates the lower calorific value of fuel, and a device that sets the target stoichiometric air-fuel ratio from the calculated lower calorific value based on a known relationship between the lower calorific value and the stoichiometric air-fuel ratio. It becomes possible to perform the air-fuel ratio control according to the fuel property by utilizing the relationship between the calorific value and the stoichiometric air-fuel ratio. | 02-25-2010 |
20100049423 | Method of Controlling the Combustion of a Compression Ignition Engine Using Combustion Timing Control - Method A method of controlling the combustion of a compression ignition engine is disclosed having applications for diesel engine combustion control for CAI. | 02-25-2010 |
20100049424 | FUEL INJECTION CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A fuel injection control apparatus for an internal combustion engine injects fuel from a fuel injection valve in each cylinder in a fuel injection mode in which an amount of fuel in the combustion chamber corresponds to a required value for starting the internal combustion engine when fuel in the combustion chamber is combusted in each cylinder after a crankshaft angle is determined through cranking for starting the internal combustion engine. When the fuel has a high alcohol concentration and is combusted after the determination of the crankshaft angle, the control apparatus sets the fuel injection mode for fuel with a high alcohol concentration as the fuel injection mode in which the amount of fuel in the combustion chamber corresponds to the required value for starting the internal combustion engine. | 02-25-2010 |
20100057326 | Fuel Injection Amount Learning Control Method - A fuel injection amount learning and controlling method capable of learning the amount of fuel injection independent of whether accessories are operated or not and without being affected by environmental conditions such as coolant temperature. The fuel injection amount learning and controlling method obtains, using an idle injection amount standard value as the standard, a fuel injection amount learning valve so that the speed of an internal combustion engine ( | 03-04-2010 |
20100057327 | Engine Combustion Control Using Ion Sense Feedback - A system and method for operating an engine having at least two spark plugs per cylinder include controlling at least one actuator to alter combustion within a selected cylinder such that the combustion burn rate determined by ion sense current signals associated with the at least two spark plugs of the selected cylinder approaches a desired combustion burn rate. A desired combustion burn rate is determined based on current engine/vehicle operating and ambient conditions with ion sense signals from each spark plug analyzed to determine combustion timing relative to corresponding ignition timing. Ignition timing and/or other actuators are controlled in response to provide a desired combustion burn rate. | 03-04-2010 |
20100057328 | LEAN NITROGEN OXIDE EMISSION CONTROL SYSTEM AND METHOD - A control system comprising an NH | 03-04-2010 |
20100057329 | MULTI-PULSE SPARK IGNITION DIRECT INJECTION TORQUE BASED SYSTEM - A control system is provided and includes a catalyst module that generates a multi-mode enable signal based on a catalyst light off enable signal. A transition control module controls transitions between a single pulse mode and multi-pulse mode based on the multi-mode enable signal. The transition control module receives a first torque signal and generates a second torque signal based on the first torque signal. The engine torque control module generates an air per cylinder signal, a throttle area signal, and a spark timing signal based on the second torque signal. The single pulse mode is associated with a single fuel injection pulse per combustion cycle. The multi-pulse mode is associated with multiple fuel injection pulses per combustion cycle. | 03-04-2010 |
20100057330 | MULTI-PULSE ENABLE DETERMINATION AND TRANSITION CONTROL SYSTEMS AND METHODS - A coordinated torque control (CTC) system is provided that includes an engine capacity module, a multi-pulse enable module, and a catalyst light off torque reserve module. The engine capacity module determines a torque capacity of an engine and generates a maximum engine torque capacity signal. The multi-pulse enable module enables a multi-pulse mode that includes the injection of at least two pulses of fuel into a cylinder of the engine during a combustion cycle. The multi-pulse enable module generates a multi-pulse desired signal to operate in the multi-pulse mode based on the maximum engine torque capacity signal, a catalyst light off signal, and a brake torque request signal. The catalyst light off torque reserve module generates a torque reserve corrected signal based on the multi-pulse desired signal. | 03-04-2010 |
20100057331 | AIR QUANTITY CONTROL DEVICE OF INTERNAL COMBUSTION ENGINE - An ECU calculates actual intake air quantity suctioned into a combustion chamber or a value correlated with the actual intake air quantity as an actual measurement data based on a measurement value of an airflow meter. The ECU calculates intake air quantity estimated to be suctioned into the combustion chamber or a value correlated with the estimated intake air quantity as an estimation data based on a drive state of a throttle actuator. The ECU detects an abnormality in the throttle actuator based on a deviation degree between the actual measurement data and the estimation data. In the abnormality detection, the ECU changes at least one of an abnormality determination value used in the abnormality determination using the deviation degree, the actual measurement data and the estimation data based on a fuel property sensed with a fuel property sensor. | 03-04-2010 |
20100063709 | METHOD AND DEVICE FOR OFFSETTING BOUNCE EFFECTS IN A PIEZO-ACTUATED INJECTION SYSTEM OF AN INTERNAL COMBUSTION ENGINE - The invention relates to a method and a device for offsetting bounce effects in a piezo-actuated injection system of an internal combustion engine using a control valve actuated by a piezoelectric actuator. The inventive method comprises the following steps: detecting an actual bounce behavior of the control valve, and determining and offsetting a deviation between the actual bounce behavior and a desired bounce behavior of the control valve, thereby generating an actuation information for the control valve which influences a speed characteristic of a needle of the control valve. The invention also relates to a device for carrying out the inventive method. | 03-11-2010 |
20100063710 | Method of Controlling Internal Combustion Engine - A method for controlling an internal combustion engine, in which a traveling with reduced cylinders is controlled according to the idle-speed after the engine starting, so as to restrain the discharge of white smokes at the time lag for temperature equilibration soon after a cold starting. The method comprises a coolant water temperature detecting means | 03-11-2010 |
20100070153 | Engine Idle Control Using GPS Telematics - A vehicle reporting its position, typically derived from a global positioning or other navigation system, implements idle time limitation protocols based on its position. The particular protocol can be derived from a central, updated location using a telematics link. | 03-18-2010 |
20100070154 | Single Nozzle Injection of Gasoline and Anti-Knock Fuel - Fuel management system of operation of a spark ignition engine. The system includes a source of gasoline and a source of anti-knock fuel. A proportioning valve receives the gasoline and the anti-knock fuel to discharge a mixture having a controlled gasoline/anti-knock fuel ratio. A single high pressure pump receives the mixture and delivers the mixture to an injector. A fuel management control system controls the proportioning valve and the injector for injection of the mixture into a cylinder of the engine to control knock. A preferred anti-knock fuel is ethanol. | 03-18-2010 |
20100070155 | Gasoline Engine System Using Variable Direct Ethanol Injection and Engine Shutdown - Fuel management system for operation of a spark ignition gasoline engine. The system includes a gasoline engine powering the vehicle and a source of gasoline for introduction into the engine. A source of an anti-knock fuel such as ethanol is provided. An injector directly injects the anti-knock fuel into a cylinder of the engine and the control system shuts down the engine by stopping gasoline and anti-knock agent flow into the engine during vehicle deceleration and idling and restarts the engine upon driver demand. Direct ethanol injection and engine shutdown results in efficiencies similar to those of full hybrid vehicles. | 03-18-2010 |
20100070156 | Fuel Management System for Variable Ethanol Octane Enhancement of Gasoline Engines - Fuel management system for efficient operation of a spark ignition gasoline engine. Injectors inject an anti-knock agent such as ethanol directly into a cylinder of the engine. A fuel management microprocessor system controls injection of the anti-knock agent so as to control knock and minimize that amount of the anti-knock agent that is used in a drive cycle. It is preferred that the anti-knock agent is ethanol. The use of ethanol can be further minimized by injection in a non-uniform manner within a cylinder. The ethanol injection suppresses knock so that higher compression ratio and/or engine downsizing from increased turbocharging or supercharging can be used to increase the efficiency of the engine. | 03-18-2010 |
20100076665 | Process for the open-and closed-loop control of an internal combustion engine with a common rail system including individual accumulators - For an internal combustion engine with a common rail system including individual accumulators, a process for open- and closed-loop control is proposed, in which the individual accumulator pressure (pE) is detected within a measuring interval and stored, an absolute minimum value of the stored individual accumulator pressure (pE) is interpreted as the end of the main injection, and on the basis of the end of the main injection, a mathematical function is used to calculate a virtual starting time for the main injection. In the measuring interval after the end of the main injection, the individual accumulator pressure (pE) is filtered within a time window, a local minimum value of the filtered individual accumulator pressure is interpreted as the end of a post-injection, and a mathematical function is used to calculate a virtual start of the post-injection. | 03-25-2010 |
20100076666 | TEMPERATURE CONTROL SYSTEM AND METHOD FOR PARTICULATE FILTER REGENERATION USING A HYDROCARBON INJECTOR - A control system includes a first module, a fuel determination module, a temperature error correction module, and a hydrocarbon injection control module. The first module determines a temperature difference between a desired inlet temperature of a particulate filter (PF) and an outlet temperature of a first catalyst. The fuel determination module determines an uncorrected desired fuel value based on the temperature difference, an ambient temperature, and a mass flow of exhaust gas. The temperature error correction module generates a desired fuel value based on the uncorrected desired fuel value. The hydrocarbon injection control module controls a hydrocarbon injector based on the desired fuel value. | 03-25-2010 |
20100076667 | VEHICLE AND FUEL FEED STOP CONTROLLER - A vehicle including an engine coupled to a transmission via a clutch, includes a fuel feed stop controller configured to stop fuel feeding to the engine when a first fuel feed stop condition is satisfied, and a clutch state detector configured to detect whether the clutch is engaged or disengaged, wherein the fuel feed stop controller is configured to resume the fuel feeding to the engine, when a second fuel feed stop condition continues to be satisfied and the clutch continues to be disengaged for a predetermined delay time from a time point when the first fuel feed stop condition is satisfied and the clutch state detector starts to detect that the clutch is disengaged. | 03-25-2010 |
20100082221 | THERMAL-PROTECTION BASED ENGINE PERFORMANCE ENHANCEMENT - An engine control module includes a power module and a turbine temperature module. The power module controls engine power output based on a turbine temperature. The turbine temperature module determines the turbine temperature based on a turbine inlet temperature. The power module decreases the engine power output when the turbine temperature is greater than or equal to a predetermined threshold temperature. | 04-01-2010 |
20100082222 | Fuel Sulfur Content-Based Operation Control of a Diesel Engine - Over a diesel engine's lifetime, engine efficiency may be reduced and some of this may be attributable to sulfur deposit accumulation in the engine. A method for controlling operation of a diesel engine operating on a fuel is provided. The method may include adjusting an injection of fuel to the engine in response to a sulfur content of the fuel. | 04-01-2010 |
20100082223 | HIGH PRESSURE FUEL PUMP CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - There is provided a high pressure fuel pump control system for an internal combustion engine which enables fuel pressure control with high precision without being restricted by the number of cylinders of the internal combustion engine or the number of phase sensor signals and the number of cam noses which vertically drives a plunger of a high pressure fuel pump even when a camshaft phase varies by a variable valve timing mechanism by using the high pressure fuel pump with a solenoid valve. The control system has a means which changes an effective stroke by driving the solenoid valve in the high pressure fuel pump, and has a means which changes the drive timing of the high pressure fuel pump based on a cylinder recognition value of the internal combustion engine with the cam angle detecting means as an origin. | 04-01-2010 |
20100082224 | LEAK DETECTION SYSTEM - An injection system includes an injector, first valve, second valve, and pressure sensing device. In an embodiment, first valve is in communication with an injector outlet and includes a closed position for at least partially stopping fluid flow from injector outlet. The second valve is in communication with an injector inlet and includes a closed position for at least partially stopping fluid flow to injector inlet. The pressure sensing device is configured for sensing an injector inlet pressure drop of the injector. The injection system may be configured to stop or impede fluid flow to injector inlet when the rate of pressure drop measured by the pressure sensing device is at least equal to a predetermined pressure value that represents a rate of pressure drop measured between injector inlet and second valve when the first valve and second valve are in the closed position. | 04-01-2010 |
20100088006 | FUEL INJECTION APPARATUS - A fuel injection apparatus for an engine includes a fuel pump, a common rail, a fuel injection valve, and a pressure detector. The pressure detector detects pressure of fuel as actual fuel pressure. The apparatus compares the actual fuel pressure with target fuel pressure determined based on an operational state of the engine. The apparatus computes at least one of a lift amount, by which a nozzle needle of the valve is displaced from a valve seat of the valve, and a lifting speed, at which the nozzle needle is displaced from the valve seat, to be smaller with an increase of a difference between the target and actual fuel pressures when the actual fuel pressure is greater than the target fuel pressure. The apparatus applies the drive pulse to the drive unit based on the at least one of the lift amount and the lifting speed. | 04-08-2010 |
20100088007 | INTERNAL COMBUSTION ENGINE CONTROL SYSTEM - After power supply from a backup power source to a volatile memory is restored from temporary suspension, a remaining data determining section determines whether data of change history remaining in the volatile memory is data that has been stored immediately before the suspension of the power supply. When it is determined that the data remaining in the volatile memory is not the data that has been stored immediately before suspension of the power supply, a reference value learning section moves an actuator to a limit position, assigns the reference value to an initial value, and clears the change history. When suspension of the power supply from the backup power source reoccurs before completion of the reference value learning by the reference value learning section, a control section invalidates the determination of the remaining data determining section and performs the reference value learning, after the power supply is restored. | 04-08-2010 |
20100094525 | VEHICLE SPEED DEPENDANT CALIBRATION TRIM OR USER-SELECTABLE CALBRATABLE TRIM FOR IMPROVED FUEL ECONOMY - A control system and method for improving vehicle fuel economy is provided. A base timing module generates a base timing signal. A trim module generates a timing trim signal based on a calibratable compensation factor. A vehicle speed trim module adjusts a calibration parameter (such as engine timing for example) based on the base timing signal and the timing trim signal. According to some implementations, the trim module includes a base trim module and a vehicle speed compensation module and a calibratable compensation factor module. The vehicle speed compensation module generates a vehicle speed compensation factor. The base trim module generates a base trim signal based on the vehicle speed compensation factor or the calibratable compensation factor. The base trim signal can be based on a speed of the engine. The base trim signal can further be based on a quantity of fuel delivered to the engine. | 04-15-2010 |
20100094526 | INTERNAL COMBUSTION ENGINE SYSTEM, CONTROL METHOD OF INTERNAL COMBUSTION ENGINE SYSTEM, AND VEHICLE - On incompletion of port learning, an auto stop-permitting water temperature is set to a temperature which is higher than a temperature set on completion of the port learning and is higher than a port injection temperature as an upper limit temperature that enables an engine to be driven in a port injection drive mode. This arrangement increases the opportunity of continuing the operation of the engine with fuel injection from a port fuel injection valve without an auto stop, thus increasing the opportunity of the port learning. | 04-15-2010 |
20100094527 | CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE AND CONTROL METHOD THEREFOR - The temperature at the tip of a fuel injection valve ( | 04-15-2010 |
20100100302 | Method and Device For Dosing Fuel Which Is To Be Injected Into A Combustion Chamber Of An Internal Combustion Engine - Method for dosing fuel injected into an engine, with a fuel quantity for an injector, the fuel quantity being divided into pilot and main injections for respective activation duration having activation duration corrective value, the method may include storing correlation data between fuel injection quantity and activation time under at least a state parameter of the injector, wherein the fuel injection quantity includes reference total injection quantities determined for predetermined operating states of the engine, determining a present operating state of the engine, placing the engine into one of the predetermined operating states, determining a present total injection quantity and a reference total injection quantity in one of the at least a state parameter of the injector, and defining the respective activation duration corrective value for the pilot and main injection considering a difference between the reference total injection quantity and the present total injection quantity. | 04-22-2010 |
20100100303 | Fuel Injection Control Device For Diesel Engine - A fuel injection control device for a diesel engine controls the first fuel injection timing so as to reduce the amount of white smokes generated in large amounts immediately after starting an engine. The fuel injection control device for the diesel engine comprised a high-pressure pump, a common rail for accumulating a highly-pressured fuel, injectors for injecting the fuel into a combustion chamber and a control means. Due to the fuel injection control device for the diesel engine, the fuel injection is performed after the cranking, without injecting the fuel for a certain period of time after an engine staring switch is turned on, in order that the pressure in the common rail becomes a setting value. | 04-22-2010 |
20100106391 | FULLY-CLOSED POSITION LEARNING METHOD AND VEHICLE MOTION CONTROL APPARATUS - Erroneous learning of an accelerator pedal fully-closed position is reliably detected, problems originating from the erroneous learning are prevented from arising, and further improvements in reliability of vehicle motion are achieved. | 04-29-2010 |
20100114456 | Variable Intake System - A variable intake system may include a single plenum that is connected to runners and that has a space formed therein, a first barrier that divides the space inside the plenum into a first space and a second space, a first variable valve that is mounted on the first barrier to connect or isolate the first space and the second space to/from each other, a variable pipe of which one side thereof is connected to the plenum and the other side is closed, a second barrier that divides the variable pipe into at least two spaces, and a second variable valve that is mounted on the second barrier to connect or isolate the at least two spaces to/from each other to improve intake efficiency. | 05-06-2010 |
20100114457 | CONTROL SYSTEM FOR CONTROL SUBJECT HAVING COMBUSTION UNIT AND CONTROL SYSTEM FOR PLANT HAVING BOILER - A control system includes a basic control command operating unit, a fuel data storage unit, a running results database for storing past running results values of a control subject, a data creating unit configured to calculate a distance between data of the past running results values and the data sets and determining data set in which a distance between data becomes minimum, a modeling unit configured to model a relationship between operation parameters of a combustion apparatus and components in combustion gas of the combustion apparatus by using the data set determined by the data creating unit and a correcting unit for calculating combustion apparatus operation parameters with which components having a better condition than that of the components in a current gas are provided by using a model of the modeling unit and correcting operation command values of the basic control command operating unit by calculated operation parameters. | 05-06-2010 |
20100121556 | Torque-Based Hybrid Electric Vehicle Powertrain Control System and Method - The invention comprises a control method for a hybrid electric vehicle powertrain having a throttle-controlled engine and an electric motor, a battery and a generator. Compensation is made for differences between driver commanded torque and actual engine torque due to engine throttle contamination using a closed-loop control strategy that creates a throttle setting correction. | 05-13-2010 |
20100125400 | FUEL TEMPERATURE ESTIMATION IN A SPARK IGNITED DIRECT INJECTION ENGINE - A fuel control system that includes a fuel injector control module that selectively applies a power source to a coil of a fuel injector. The fuel control system also includes a current determination module that selectively measures current flowing through the coil. The fuel control system also includes a fuel temperature estimation module that selectively calculates a resistance of the coil based on the measured current and a voltage value of the power source and that determines an estimated fuel temperature based on the resistance. The fuel injector control module controls operation of a fuel system based on the estimated fuel temperature. | 05-20-2010 |
20100125401 | CONTROL SYSTEMS AND METHODS FOR ESTIMATING ENGINE COOLANT HEAT LOSS - A control system for an engine includes an air calculation module that determines, based on a plurality of first coolant temperatures sensed during a period of engine operation, a first cumulative mass of intake air combusted by the engine during the period that corresponds to an estimated amount of heat dissipated by a cooling system of the engine during the period, and that determines, based on the first cumulative mass, a second cumulative mass of intake air of the engine that is required to raise a temperature of the engine from an initial temperature at a start of the period to a target temperature. The control system further includes a control module that selectively adjusts one of a diagnostic condition and an operating condition of the engine based on the second cumulative mass. A related method for controlling an engine is also provided. | 05-20-2010 |
20100131172 | Engine control system having fuel-based timing - A control system for an engine having a cylinder is disclosed having an engine valve movable to regulate a fluid flow of the cylinder and an actuator associated with the engine valve. The control system also has a sensor configured to generate a signal indicative of an amount of an air/fuel mixture remaining within the cylinder after completion of a first combustion event and a controller in communication with the actuator and the sensor. The controller may be configured to compare the amount with a desired amount, and to selectively regulate the actuator to adjust a timing of the engine valve associated with a subsequent combustion event based on the comparison. | 05-27-2010 |
20100131173 | Engine control system having fuel-based adjustment - A control system for an engine having a cylinder is disclosed having an engine valve configured to affect a fluid flow of the cylinder, an actuator configured to move the engine valve, and an in-cylinder sensor configured to generate a signal indicative of a characteristic of fuel entering the cylinder. The control system also has a controller in communication with the actuator and the sensor. The controller is configured to determine the characteristic of the fuel based on the signal and selectively regulate the actuator to adjust a timing of the engine valve based on the characteristic of the fuel. | 05-27-2010 |
20100131174 | TORQUE CONTROL SYSTEM WITH SCAVENGING - An engine control system includes a scavenging module that generates a scavenging signal when both a driver torque request is greater than a predetermined torque threshold and a rotational speed of an engine crankshaft is less than a predetermined speed threshold. A cam phaser control module controls intake and exhaust cam phasers based on the scavenging signal such that opening times of intake and exhaust valves of a respective cylinder overlap. | 05-27-2010 |
20100131175 | FUEL INJECTION SYSTEM AND METHOD FOR INJECTING FUEL - The invention relates to a fuel injection system having at least one fuel injector, which includes an electrically operable actuator. In order to reduce the hydraulic distances between two injections, a voltage-smoothing or voltage-dampening electric device is connected in parallel to the actuator. | 05-27-2010 |
20100131176 | CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - A control system for an internal combustion engine having a valve operating characteristic varying mechanism for continuously changing a lift amount of at least one intake valve of the engine. The valve operating characteristic varying mechanism includes a control shaft for changing the lift amount, a motor for rotating the control shaft, and a transmission mechanism provided between an output shaft of the motor and the control shaft for transmitting an actuating force of the motor to the control shaft. A first rotational angle sensor detects a rotational angle of the output shaft of the motor, and a second rotational angle sensor detects a rotational angle of the control shaft. A control of the lift amount of the at least one intake valve is performed according to the rotational angle detected by the first rotational angle sensor or the second rotational angle sensor. A failure diagnosis of the first rotational angle sensor, the second rotational angle sensor, and the transmission mechanism is performed based on the rotational angles detected by the first and second rotational angle sensors. | 05-27-2010 |
20100131177 | METHOD OF OPERATING AN INTERNAL COMBUSTION ENGINE - A method for operating an internal combustion engine in the form of an Otto engine, especially of a motor vehicle, selectively uses carburetor fuel, especially gasoline or ethanol (E85) by direct injection into at least one combustion chamber of the internal combustion engine by means of at least one fuel injector. Optionally, instead of injecting ignition spark engine fuel or in addition to injecting ignition spark engine fuel, the internal combustion engine is operated with gas, especially CNG (Compressed Natural Gas) or LPG (Liquefied Petroleum Gas). A mixture adaptation value is continuously determined during the operation of the internal combustion engine with spark ignition engine fuel. An actual mixture adaptation value is stored in a memory during the operation of the internal combustion engine with the spark ignition engine fuel and, after a predetermined minimum duration of operation with gas, an actual mixture adaptation value is compared with the stored mixture adaptation value during the operation of the internal combustion engine with ignition spark engine fuel. The fuel injectors are scavenged when a difference between the actual mixture adaptation value and the stored mixture adaptation value exceeds a predetermined difference value. | 05-27-2010 |
20100131178 | METHOD OF OPERATING AN INTERNAL COMBUSTION ENGINE - A method relates to operating an internal combustion engine in the form of an Otto engine, especially of a motor vehicle. Otto engine fuel (i.e., carburetor fuel, spark ignition engine fuel), such as gasoline or ethanol (E85), are directly injected into at least one combustion chamber of the internal combustion engine with at least one fuel injector. Optionally, instead of injecting ignition spark engine fuel or in addition, the internal combustion engine is operated with gas, especially CNG (compressed natural gas) or LPG (liquefied petroleum gas). During operation of the internal combustion engine with gas only, the engine is automatically switched to the operation with spark ignition engine fuel for a predetermined period, or the engine is switched to the operation with spark ignition engine fuel in addition to the operation with gas, in such a manner that a predetermined quantity of the carburetor fuel flows through the at least one fuel injector. The engine is then automatically switched back to the operation with gas only. | 05-27-2010 |
20100138136 | CONTROLLER FOR INTERNAL COMBUSTION ENGINE - When a coolant temperature ( | 06-03-2010 |
20100138137 | METHOD AND DATA STORAGE MEDIUM FOR READING AND/OR STORING INJECTOR-SPECIFIC DATA FOR CONTROLLING AN INJECTION SYSTEM OF AN INTERNAL COMBUSTION ENGINE - In a method for reading and/or storing injector-specific data for controlling an injection system of an internal combustion engine, an injector is charged by a control unit according to a predeterminable voltage curve and, depending on the case, is discharged directly by the control unit or by a power element located on a data storage medium and the voltage is measured by the control unit and by the data storage medium. Dependent upon a predeterminable voltage curve, a predeterminable amount of data is stored or read on a memory unit of the data storage medium. | 06-03-2010 |
20100138138 | METHOD TO OPERATE AN INTERNAL COMBUSTION ENGINE - ENGINE MANAGEMENT SYSTEM USING ADAPTIVE IGNITION AND FUEL QUANTITY OPTIMIZATION WITH MINIMAL SENSOR REQUIREMENTS FOR STANDARD AND BIO-FUELS - A method to operate an internal combustion engine, comprising the steps of direct or indirect measurement in a cylinder and/or in a working cycle of the time or point or area/band where the combustion process of an internal combustion engine completes the ignition phase or nears the end of the ignition phase and begins or transits into the combustion phase, or which marks the beginning of the combustion phase, or otherwise marks that the combustion process has commenced. | 06-03-2010 |
20100145595 | SMALL ENGINE OPERATION COMPONENTS - A low pressure, low cost electronic fuel injection system ( | 06-10-2010 |
20100145596 | CONTROL APPARATUS AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - An engine ECU executes a program including detecting, when refueling with an alcohol fuel is performed, a refueling amount of the alcohol fuel based on a signal transmitted from a sender gauge, increasing DI ratio r that is a ratio between a fuel injection amount from an in-cylinder injector and a fuel injection amount from an intake passage injector, according to the refueling amount of the alcohol fuel, such that the ratio of the fuel injection amount from the in-cylinder injector is higher, and retarding the ignition timing according to the refueling amount of the alcohol fuel. | 06-10-2010 |
20100152993 | FUEL MONITORING METHOD AND SYSTEM - A fuel-monitoring system include a fuel source to supply an air and fuel mixture, a sensing device to receive the air and fuel mixture from the fuel source and require a compensatory power supply due to flow of the air and fuel mixture; and a processing device for determining an amount of fuel in the fuel source by relating the compensatory power supply required by the sensing device to the amount of fuel in the fuel source. | 06-17-2010 |
20100152994 | METHOD FOR ASSESSING A METHOD OF FUNCTIONING OF A FUEL INJECTOR IN RESPONSE TO THE APPLICATION OF A CONTROL VOLTAGE, AND CORRESPONDING EVALUATION DEVICE - A method for assessing a method of functioning of a fuel injector in response to the application of a control voltage to at least one actuator of the fuel injector, including the steps of applying the control voltage to the at least one actuator of the fuel injector for a no-torque-generating injection into an engine, determining a fuel content in an exhaust tract disposed at an engine, comparing the determined fuel content with a specified comparison value, and assessing the method of functioning of the fuel injector based on the comparison result. Furthermore, also described is an evaluation device for assessing a method of functioning of a fuel injector in response to the application of a control voltage. | 06-17-2010 |
20100161199 | Fuel consumption saving system and a method of operation thereof - A fuel consumption saving system for an internal combustion engine incorporates a means for determining the actual load factor from a set of first sensors, determining an actual minimum load factor, and modifying the actual values of sensed data in response to the actual minimum load factor thereby to yield actual optimal values for transmission to an engine control unit for controlling the engine. | 06-24-2010 |
20100161200 | FUEL CONTROL SYSTEM AND ASSOCIATED METHOD - A fuel control system for controlling the purging of alternate fuel in an internal combustion engine at shutdown includes: at least one valve device configured to deliver a fuel supply to the engine; a first fuel source configured to provide a primary fuel to the valve device; a second fuel source configured to provide an alternate fuel to the valve device; and a controller connected to the valve device and adapted to be connected to an ignition system. The controller is configured to control the valve device responsive to a status of one of the engine and the ignition system. | 06-24-2010 |
20100168983 | Internal combustion engine, control system and operating method for determining a fuel attribute - A method of operating a fuel injected multi-cylinder internal combustion engine includes electronically storing a first value or reference value indicative of an engine speed response to a commanded fueling duration change during fueling the engine with a first fuel or reference fuel, such as a known type of diesel fuel. The method further includes operating the internal combustion engine in a fuel testing mode during fueling with a second fuel or test fuel, such as an unknown type of diesel fuel. The fuel testing mode includes determining a second value or test value indicative of an engine speed response to a commanded fueling duration change, comparing the test value with the reference value and outputting a fuel attribute signal which is based at least in part on comparing the reference value and the test value. If a difference between the reference value and the test value satisfies corrective action criteria, a corrective action such as adapting fuel injector control signal duration or shutting down the engine can be taken. An engine and control system whereby the operating method is executed are also provided. | 07-01-2010 |
20100168984 | METHOD OF ADJUSTING INJECTION, COMBUSTION AND/OR POST-TREATMENT PARAMETERS OF AN INTERNAL COMBUSTION ENGINE WITH AUTO-IGNITION - The present invention relates to a method for adjusting injection, combustion and/or post-treatment parameters of an internal combustion engine with auto-ignition, characterized in that it comprises a step of determining the content and the type of biofuel present in the fuel feeding the injection system. | 07-01-2010 |
20100168985 | STRADDLE TYPE VEHICLE - A snowmobile includes an engine, an engine power controller, an operation portion, an operation input detector, an operation amount detector, and a control portion. The control portion does not control the engine power controller based on an amount detected by the operation amount detector in a preliminary zone in which the operation amount detected by the operation amount detector is not more than a first operation amount. The control portion controls the engine power controller based on an operation amount detected by the operation amount detector if the operation amount is greater than the first operation amount. A second operation amount smaller than the first operation amount is set in the preliminary zone and the control portion determines whether operation of the operation portion is carried out based on whether operation corresponding to the second operation amount is detected by the operation input detector. | 07-01-2010 |
20100168986 | APPARATUS AND METHOD FOR DETECTING ABNORMAL AIR-FUEL RATIO VARIATION AMONG CYLINDERS OF MULTI-CYLINDER INTERNAL COMBUSTION ENGINE - An apparatus for detecting abnormal air-fuel ratio variation among cylinders of a multi-cylinder internal combustion engine includes: a catalyst element that oxidizes hydrogen contained in exhaust gas to remove the hydrogen; a first air-fuel ratio sensor that detects an air-fuel ratio of exhaust gas that has not passed through the catalyst element; a second air-fuel ratio sensor that detects an air-fuel ratio of exhaust gas that has passed through the catalyst element; and a unit that determines whether abnormal air-fuel ratio variation among the cylinders has occurred based on an amount by which a value detected by the second air-fuel ratio sensor is leaner than a value detected by the first air-fuel ratio sensor | 07-01-2010 |
20100174467 | Intensifier quill for fuel injector and fuel system using same - An intensifier quill for a fuel injector fluidly connects a fuel injector to a common rail. The intensifier quill selectively supplies fuel to the fuel injector at either an intensified pressure or un-intensified common rail pressure. Fuel supplied by the quill at both the intensified and un-intensified pressure passes through a quill body, which includes an actuation chamber, a control chamber and a pressurization chamber. Energizing an actuator of the quill allows fuel from the control chamber to flow to drain, increasing pressure inside the pressurization chamber and the fuel injector to intensified pressure. Upon energizing the actuator of the fuel injector, fuel injector injects fuel at the intensified pressure. When the quill's actuator is de-energized and the fuel injector's actuator is energized, fuel injector injects fuel at the un-intensified pressure. | 07-08-2010 |
20100174468 | METHOD FOR DETECTION OF EMISSIONS LEVELS DURING EXTENDED ENGINE SPEED CONTROLLED OPERATION - A method for detection of emissions levels during extended engine speed controlled operation is provided. The method includes monitoring mass airflow passing through the engine while operating the engine. The method further includes adjusting mass airflow responsive to engine speed to maintain a desired engine speed. The method further includes shutting down the engine when engine mass airflow becomes higher than a predetermined mass airflow threshold. | 07-08-2010 |
20100174469 | SYSTEM FOR RECALCULATING THE AIR/FUEL MIXTURE IN INTERNAL COMBUSTION ENGINE VEHICLES, AND AN ELECTRONIC DEVICE - The present Invention is directed to an electronic system that allows for a lower consumption of fuel and emission of polluting gases that are generated after the air/fuel mixture is burned by the internal combustion engine. | 07-08-2010 |
20100174470 | Fuel Management System for Very High Efficiency Flex Fuel Engines Powered by Methanol and Gasoline - Turbocharged or supercharged spark ignition engine. The engine includes a source of methanol for direct injection of methanol into the engine and for delivering a portion of the methanol to a reformer for generating a hydrogen-rich gas. | 07-08-2010 |
20100179743 | COLD-START RELIABILITY AND REDUCING HYDROCARBON EMISSIONS IN A GASOLINE DIRECT INJECTION ENGINE - A method for starting an engine of a motor vehicle, the engine having an intake manifold, an intake throttle controlling admission of air into the intake manifold, and a plurality of combustion chambers communicating with the intake manifold, the method comprising providing a reduced pressure of air in the intake manifold prior to delivering fuel or spark to the engine, the reduced pressure of air responsive to a temperature of the engine; delivering fuel to one or more of the plurality of combustion chambers in an amount based on the reduced pressure of air; and delivering spark to the one or more combustion chambers to start the engine. | 07-15-2010 |
20100179744 | METHOD AND DEVICE FOR DETERMINING A CONTROL PARAMETER FOR A FUEL INJECTOR OF AN INTERNAL COMBUSTION ENGINE - In a method for determining a control parameter for a fuel injector of an internal combustion engine, the problem of enabling more precise determination of the control parameter, even if the fuel pressure (FUP) present on the fuel injector varies, is solved in that the fuel pressure (FUP) present on the fuel injector during the injection (I | 07-15-2010 |
20100185378 | METHOD OF CONTROLLING THE COMBUSTION OF A DIESEL ENGINE - The invention is a method of controlling the combustion of a diesel engine comprising determining setpoint values for physical parameters linked with the intake of gaseous oxidizer in the combustion chamber, and a setpoint value θ | 07-22-2010 |
20100185379 | METHOD AND DEVICE FOR OPERATING AN INTERNAL COMBUSTION ENGINE - Actual values of a load variable are detected by a sensor during active model trimming under different valve pressure conditions, and a model of estimated values is created. Trimming values of a model parameter are determined depending on detected and modeled values such that when the model parameter is trimmed, the modeled values approximate the detected values. A function is determined depending on the different pressure conditions and approximated to the trimming values. At different pressure conditions first lambda control values are detected. A first controller value fitted function is determined depending on the pressure conditions and approximated. When the model trimming mode is not active, second lambda control values are detected at different pressure conditions. A second controller value fitted function is determined depending on the pressure conditions and is approximated. An error of the intake system is detected depending on the fitted functions. | 07-22-2010 |
20100185380 | INTERNAL COMBUSTION ENGINE CONTROL APPARATUS AND METHOD - An internal combustion engine control apparatus includes a fuel supplying mechanism supplying fuel to the internal combustion engine; an exhaust gas recirculating mechanism recirculating exhaust gas of the internal combustion engine to an intake side of the internal combustion engine; a flow adjuster selectively increasing and decreasing a strength of flow of the supplied fuel and the recirculated exhaust gas in a cylinder of the internal combustion engine; a stop controller controlling the fuel supplying mechanism to stop the supply of fuel and controlling the exhaust gas recirculating mechanism to stop the recirculation of exhaust gas, when the internal combustion engine is operated in a predetermined deceleration mode; and in-cylinder flow controller controlling the flow adjuster to increase the strength of the flow when the control to stop the supply of fuel is cancelled. | 07-22-2010 |
20100191439 | ENGINE CONTROL RESPONSIVE TO VARYING AMOUNTS OF ALCOHOL IN FUEL - Various systems and methods are described for operating an engine in a vehicle in response to fuel having varying amounts of alcohol. One example method comprises delivering fuel to the engine, limiting engine speed during vehicle operation to a maximum permitted engine speed, the maximum permitted engine speed responsive to the amount of alcohol in the fuel. | 07-29-2010 |
20100191440 | CETANE NUMBER DETECTION DEVICE AND CETANE NUMBER DETECTION METHOD - A cetane number detection device for an internal combustion engine includes: fuel injection devices that injects fuel individually into cylinders; control device that executes injection of fuel from at least one of the fuel injection devices at a predetermined injection timing when the internal combustion engine is started; combustion determination device; and detection device. The combustion state determination device determines whether the state of combustion in the combustion chamber of at least one cylinder into which fuel is injected by the at least one fuel injection device is an ignition state or a misfire state. The detection device detects the cetane number of the fuel on the basis of the state of combustion in the combustion chamber. | 07-29-2010 |
20100191441 | METHOD OF FUEL CONVERSION FOR ENGINE - A method and an apparatus of fuel conversion for engine substantially provide a controller to receive either a signal for actuating the injection fuel nozzle to supply fuel or a signal of a central controller so as to actuate a high voltage generator. The high voltage generator generates a high voltage to boost a high power component of an energy converter. The high power component generates a high energy to ionize the passing fuel mixture into hydrogen and C1˜C4 hydrocarbon combustible gas mixture and feeds into engine chamber to achieve the effect of saving fuel by reducing fuel loss and enhancing engine power. | 07-29-2010 |
20100198482 | Method and device for operating an internal combustion engine having cylinder shutdown - A method and a device for operating internal combustion engine, in particular in an unfired state, are described, which make possible a largely jerk-free switchover between two operating states of internal combustion engine, having different numbers of cylinders that are activated regarding the charge cycle. Air is supplied to the internal combustion engine via an actuator in an air supply, and the quantity of air supplied to the internal combustion engine is influenced by the position of the actuator. A charge cycle state of at least one cylinder of the internal combustion engine is changed. The position of the actuator in the air supply is changed with the change of the charge cycle state of the at least one cylinder. | 08-05-2010 |
20100198483 | Engine - In an engine which may show a behavior where an engine speed is not always minimized after compression top dead center of a cylinder in which poor fuel injection occurred, the cylinder in which poor fuel injection occurred is detected. A common rail diesel engine ( | 08-05-2010 |
20100198484 | Engine - The purpose of the present invention is to provide an engine having a revision means which regulates rotation speed of each of cylinders while reflecting specific unevenness of rotation of each of the cylinders. With regard to an engine | 08-05-2010 |
20100198485 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A control apparatus for an internal combustion engine that accurately incorporates demands related to various capabilities of the internal combustion engine. A demand output unit outputs various capability demands of the internal combustion engine, expressed in terms of either torque, efficiency, or an air-fuel ratio data. A torque mediation unit collects only the demand values expressed in terms of torque, and mediates the torque demand values into one. An efficiency mediation unit collects the demand values expressed in terms of efficiency and mediates the efficiency demand values into one. An air-fuel ratio mediation unit collects the demand values expressed in terms of the air-fuel ratio and mediates the air-fuel ratio demand values into one. A control variable computing unit computes control variables of actuators, based upon the torque demand value, efficiency demand value, and air-fuel ratio demand value output from the mediation units. | 08-05-2010 |
20100204899 | SYSTEM, METHOD, APPARATUS AND COMPUTER PROGRAM PRODUCT FOR PROVIDING IMPROVED ENGINE CONTROL - An apparatus for providing an antisurge operating mode for a turbocharged engine may include a processor. The processor may be configured to receive indications of engine operating parameters and engine accelerator pedal position, determine whether the received indications correspond to antisurge mode activation conditions, and, in response to a determination that the received indications correspond to antisurge mode activation conditions, initiate control of selected engine components by directing the selected engine components to operate based on stored engine operating parameters recorded a predetermined time prior to the determination. | 08-12-2010 |
20100204900 | METHOD AND DEVICE FOR CONTROLLING A VALVE WITH SEVERAL LIFT PHASES, AND METHOD FOR SUPPLYING A THERMAL ENGINE WITH OXIDANT - The invention relates to a method for controlling a valve ( | 08-12-2010 |
20100204901 | FUEL INJECTOR HAVING ALGORITHM CONTROLLED LOOK-AHEAD TIMING FOR INJECTOR-IGNITION OPERATION - The present invention provides an injector-ignition fuel injection system for an internal combustion engine, comprising an ECU controlling a heated catalyzed fuel injector for heating and catalyzing a next fuel charge, wherein the ECU uses a one firing cycle look-ahead algorithm for controlling fuel injection. The ECU may further incorporate a look-up table, auto-tuning functions and heuristics to compensate for the rapid rotational de-acceleration that occurs near top dead center in lightweight small ultra-high compression engines as may be used with this invention. The ECU may further ramp heat input to the injector in response to engine acceleration requests and, under such circumstances, may extend its look-ahead for up to four firing cycles. | 08-12-2010 |
20100204902 | STOP-START CONTROL APPARATUS AND METHOD FOR AN INTERNAL COMBUSTION ENGINE - A stop-start control apparatus for a port injection engine ( | 08-12-2010 |
20100204903 | CONTROL APPARATUS AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - A control apparatus for an internal combustion engine ( | 08-12-2010 |
20100204904 | AIR-FUEL RATIO CONTROL APPARATUS AND AIR-FUEL RATIO CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - An amount of fuel injected into an internal combustion engine is controlled to adjust an air-fuel ratio. An air-fuel ratio sensor is disposed upstream of a three-way catalyst. An ammonia sensor is disposed downstream of the three-way catalyst. Main feedback control based on the air-fuel ratio sensor is performed such that the air-fuel ratio of exhaust gas becomes close to a target air-fuel ratio in the neighborhood of a stoichiometric air-fuel ratio. Sub-feedback control is performed on the basis of an output value of the ammonia sensor. | 08-12-2010 |
20100204905 | CONTROL UNIT OF DIESEL ENGINE - A diesel engine is provided with an exhaust fuel addition valve capable of adding fuel from an exhaust passage on an upstream side of an exhaust post-treatment device. An ECU, which is a control unit of the diesel engine, has a function to estimate biofuel concentration in the fuel and a function to obtain an exhaust temperature in the exhaust passage. The ECU sets a minimum operating exhaust temperature, which is a lower limit value of the exhaust temperature to permit operation of the exhaust fuel addition valve, according to the estimated biofuel concentration. The fuel added from the exhaust fuel addition valve is sufficiently vaporized in exhaust gas having temperature not lower than a minimum operation permission exhaust temperature set according to the biofuel concentration and is allowed to flow to the exhaust post-treatment device. | 08-12-2010 |
20100204906 | Vehicle Control System - A method is provided for controlling an engine via an outlet control device of an intake manifold, such as via variable valve lift operation. The engine may further include an inlet control device, such as an electronic throttle, as well as coordination between the inlet and outlet control devices for controlling airflow in the engine. | 08-12-2010 |
20100211288 | METHODS AND SYSTEMS FOR ENGINE STARTING - Methods and systems are provided for controlling a vehicle system including an engine that is selectively deactivated during engine idle-stop conditions and selectively reactivated during engine restart conditions. One example method comprises, during an engine restart from an idle stop, performing a first combustion event in a cylinder with a piston at an engine crankshaft position that is after a crankshaft position at which said cylinder's exhaust valve opens, and before a crankshaft position at which the cylinder's intake valve closes, during a cycle of said cylinder. | 08-19-2010 |
20100211289 | DEVICE AND METHOD FOR DETECTING DEGRADATION OF FUEL FOR INTERNAL COMBUSTION ENGINE - A transmittance sensor that detects the optical transmittance of biofuel is provided on a fuel tank that stores biofuel to be supplied to an internal combustion engine. An ECU periodically acquires the optical transmittance detected by the transmittance sensor, and calculates the amount of change from the previous value. In addition, the ECU calculates a degradation index value indicating the degree of degradation of the biofuel by accumulating the amount of change. | 08-19-2010 |
20100211290 | ABNORMALITY DIAGNOSTIC DEVICE AND ABNORMALITY DIAGNOSTIC METHOD FOR MULTICYLINDER INTERNAL COMBUSTION ENGINE - A fuel injection amount from fuel injection valves is actively controlled and an input air-fuel ratio is caused forcibly to oscillate. A system from the fuel injection valves to the air-fuel ratio sensor is simulated by a first order delay system, and a gain and time constant are identified on the basis of the input air-fuel ratio relating to the model and an output air-fuel ratio obtained from the air-fuel ratio sensor. The presence of an air-fuel ratio abnormal variation is diagnosed on the basis of whether or not the identified values of the gain and the time constant are less than a first and second predetermined values respectively. | 08-19-2010 |
20100217500 | DIESEL FUEL ENGINE INJECTION SYSTEM AND METHOD THEREFORE - Disclosed is a method of injecting LPG gas into a diesel fuel engine for combustion with diesel fuel therein. One aspect includes injecting LPG gas into an air-stream of an engine air intake or manifold, measuring the percentage of LPG gas injected into the airstream or other efficiency gauge, varying the rate of injection of LPG gas into the airstream in response to the measured percentage of LPG gas therein and injecting the LPG gas at a pre-determined rate so as to maintain an LPG gas concentration in the air intake stream in the range of 0.2% to 0.6% by volume of LPG gas. | 08-26-2010 |
20100217501 | FUEL INJECTION CONTROL SYSTEM OF INTERNAL COMBUSTION ENGINE - A fuel injection control system of an internal combustion engine includes a required injection setting mechanism, a rapid rotational speed change detector, and an injection controller. The required injection setting mechanism calculates a required number of injections and required injection times with regard to a plurality of fuel injections, based on operating conditions of the engine. The rapid rotational speed change detector determines whether the amount of change of the engine speed is equal to or larger than a predetermined value. When it is determined that the amount of change of the engine speed is equal to or larger than the predetermined value, the injection controller controls a fuel injection valve so as to reduce or eliminate differences between the actual injection times and the required injection times. Thereby, even when the engine speed changes rapidly, deteriorations in the driveability and exhaust emissions are prevented. | 08-26-2010 |
20100217502 | Fuel management system for a motor vehicle - A fuel management system for a motor vehicle has a means for shutting down the engine when the accelerator is released and the vehicle slows down, as measured by the engine's deceleration sensor. Moreover, when the transmission is put to park, or in the case of a manual transmission, when the parking brake is engaged, the engine shuts off. | 08-26-2010 |
20100217503 | APPROACH FOR ENHANCING EMISSIONS CONTROL DEVICE WARMUP IN A DIRECT INJECTION ENGINE SYSTEM - A method of controlling fuel supplied to an engine of a vehicle is provided. The method may improve engine starting during cold operating conditions. In one example, the type of fuel injected to the engine is changed in response to operating conditions. | 08-26-2010 |
20100222985 | METHODOLOGY FOR EXTENDING THE HIGH LOAD LIMIT OF HCCI OPERATION BY ADJUSTING INJECTION TIMING AND SPARK TIMING - A method for operating an internal combustion engine including extended operation in a homogeneous charge compression ignition mode at high loads includes operating the engine in the homogeneous charge compression ignition mode including spark-assisted ignition, monitoring an engine load, monitoring an engine speed, determining the engine to be in a high ringing range based upon the engine load and the engine speed, and when the engine load is in the high ringing range, operating the engine in a reduced ringing mode. The reduced ringing mode includes modulating a fuel injection timing according to a calibrated maximum combustion chamber cooling fuel injection timing, determining a preferred combustion phasing value, and modulating a spark timing based upon the modulated fuel injection timing and the preferred combustion phasing value. | 09-02-2010 |
20100222986 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - An exhaust valve early-closure control brings about blowback of exhaust gas into an intake system. However, if the exhaust valve early-closure control is executed, for example, during a first idle operation immediately following the startup of the engine, or the like, the amount of blowback exhaust gas becomes excessively large. Therefore, when the post-startup increase amount has decreased to or below a lower-limit criterion value, the ECU prohibits the exhaust valve early-closure control, and changes the control to a usual valve timing control. As a result, during a period during which the combustion state has a stability margin and the amount of emission of HCs and the like is large, the exhaust emission quality can be bettered by the exhaust valve early-closure control. Besides, when the post-startup increase amount has decreased, the combustion state can be stabilized by prohibiting the exhaust valve early-closure control. | 09-02-2010 |
20100222987 | METHOD FOR ESTIMATING THE TEMPERATURE OF A GAS PRESSURE SENSOR ATTACHED TO A WALL OF A DIESEL ENGINE AND USE OF ONE SUCH METHOD - The invention relates to a method for estimating the temperature of a gas pressure sensor attached to a wall of a turbocharged motor vehicle diesel engine, said sensor being positioned upstream of the turbine of the turbocharger. According to the invention, the temperature of the gas pressure sensor is estimated at least by measuring the temperature of the external air and the temperature of the wall to which the sensor is attached. | 09-02-2010 |
20100222988 | METHOD OF DETECTING AND COMPENSATING FOR INJECTOR VARIABILITY WITH A DIRECT INJECTION SYSTEM - A method for controlling an injection of fuel to an engine is described. In one example, the different fuels are injected to an engine during different engine operating conditions. The method may improve engine starting and reduce engine emissions. | 09-02-2010 |
20100228463 | FUEL IGNITION QUALITY DETECTION SYSTEMS AND METHODS - An engine control system includes an engine calibration module that sets fuel injection timing based on one of N cetane number (CN) values, wherein N is an integer greater than one. A combustion noise module generates a combustion noise signal based on cylinder pressure in a compression ignition (CI) engine during combustion. A fuel quality determination module compares the combustion noise signal to N predetermined combustion noise levels corresponding to the N CN values, and that selects the one of the N CN values based on the comparison. | 09-09-2010 |
20100228464 | Method and Device for Controlling a Suction Pressure of an Internal Combustion Engine - A method device for controlling a suction pressure of an internal combustion engine, particularly a diesel engine having an exhaust gas turbocharger. The compressor is connected to a suction line of the internal combustion engine via an actuating section having an actuating element for changing a cross-section of the actuating section. In the first step, the current suction pressure in the suction line of the internal combustion engine is determined. A compressor pressure of the compressor is determined by pressure sensors and compared to the suction pressure. Values corresponding to current operating data of the internal combustion engine are identified and an actuation signal is generated using a controller, based on the comparison; and changing the cross-section of the actuating section is adjusted by adjusting the actuating element using the actuating signals. | 09-09-2010 |
20100235067 | VARIABLE VALVE TIMING APPARATUS AND CONTROL METHOD THEREOF - In valve timing control after issuance of an engine stop instruction with a prescribed value set as a target phase, an ECU delays permission of an engine stop process within a prescribed time period while an intake valve phase has not yet reached the target value, so that a valve timing control operation is continued while the engine operation is continued in an idle state. After the lapse of a prescribed time period from the issuance of the engine stop instruction, however, the ECU permits the engine stop process no matter whether the intake valve phase has reached the target value or not. As a result, the amount of valve timing that can be changed by the valve timing control in the engine stop operation can be increased, without causing any uncomfortable feeling of the driver. | 09-16-2010 |
20100235068 | CONTROL OF CONTROLLED-AUTO-IGNITION (CAI) COMBUSTION PROCESS - A method for controlling controlled-auto-ignition operation in an eternal combustion engine is described. The method includes the injection of air into a combustion cylinder at an appropriate time in the combustion cycle in response to measured conditions. The injection of air acts to alter the CAI-phasing, thus providing the ability to extend the CAI operation further into a vehicle speed/load range. | 09-16-2010 |
20100235069 | APPARATUS FOR CONTROLLING A VEHICLE - It is possible to suppress fluctuations of an air intake amount when the open degree of an air intake control valve is unknown. An engine includes an impulse valve common to all the cylinders arranged in the engine. The impulse valve is arranged in a communicating tube provided at the downstream side of a serge tank. An ECU executes impulse valve drive control. In the control, the ECU judges whether a rotation angle sensor which detects the open degree of the impulse valve has failed. If it is judged that the rotation angle sensor has failed, the ECU controls a drive motor and a drive circuit for driving a valve body so that a valve body of the impulse valve rotates inside the communicating tube. Here, the rotor of the drive motor which defines the rotation speed of the valve body has an rpm which is set in accordance with the mechanical rpm NE of the engine. | 09-16-2010 |
20100235070 | VEHICLE AND CONTROL METHOD THEREFOR - A vehicle includes: an internal combustion engine; an exhaust gas recirculation device; and a controller that controls the internal combustion engine and the exhaust gas recirculation device. When acceleration of the vehicle is greater than or equal to zero and is less than or equal to a predetermined acceleration, an ignition performed with a predetermined energy and a predetermined number of times of performance that enable the internal combustion engine to efficiently operate for one event of explosion and combustion of the internal combustion engine. When the acceleration of the vehicle is greater than the predetermined acceleration, the ignition performed with an energy that is greater than the predetermined energy and/or a number of times of performance that is greater than the predetermined number of times of performance for one event of explosion and combustion of the internal combustion engine. | 09-16-2010 |
20100241335 | TORQUE CONTROL APPARATUS AND CONTROL METHOD FOR VEHICLE DRIVING UNIT - The prevention of the occurrence of a shock during acceleration is enabled without impairing acceleration response as to a control apparatus for a vehicle driving unit. By changing a control amount of a specific one or specific ones of the plurality of the control elements when a torque-up request is issued, the output torque of the vehicle driving unit is increased toward a target output torque. In this case, a torque gradient upon changing the control amount of the specific one or the specific ones of the control elements is estimated and calculated on the basis of a current output torque of the vehicle driving unit according to a calculation rule formulated in advance. The control amounts of the respective control elements including the specific one or the specific ones of the control elements are set such that the estimated torque gradient coincides with a predetermined target torque gradient. | 09-23-2010 |
20100250093 | METHOD AND APPARATUS FOR COMBUSTION CHAMBER PRESSURE ESTIMATION - In order to compensate for pressure drop across a fuel injector, pressure in a combustion chamber of an internal combustion engine into which fuel is injected is estimated based on manifold pressure at a timing for intake valve closure and volumes of the combustion chamber at a timing for intake valve closure and at least one other timing. | 09-30-2010 |
20100250094 | ENGINE THROTTLE CONTROL SYSTEM - An operation amount detecting unit | 09-30-2010 |
20100250095 | FUEL INJECTION DETECTING DEVICE - A fuel injection detecting device computes a maximum-fuel-injection-rate-reach timing and a fuel-injection-rate-decrease-start timing based on a falling waveform of the fuel pressure and a rising waveform of the fuel pressure. The falling waveform represents the fuel pressure detected by a fuel sensor during a period in which the fuel pressure increases due to a fuel injection rate decrease. The rising waveform represents the fuel pressure detected by the fuel sensor during a period in which the fuel pressure decreases due to a fuel injection rate increase. The rising waveform and the falling waveform are respectively modeled by modeling function. In a case of small fuel injection quantity, an intersection timing at which lines expressed by the modeling functions intersect with each other is defined as the maximum-fuel-injection-rate-reach timing and the fuel-injection-rate-decrease-start timing. | 09-30-2010 |
20100250096 | FUEL INJECTION DETECTING DEVICE - A fuel injection detecting device computes an actual fuel-injection-start timing based on a falling waveform of the fuel pressure detected by a fuel sensor during a period in which the fuel pressure decreases due to a fuel injection rate increase. The falling waveform is modeled by a modeling formula. A reference pressure is substituted into the modeling formula, whereby a timing is obtained as the fuel-injection-start timing. | 09-30-2010 |
20100250097 | FUEL INJECTION DETECTING DEVICE - An actual maximum fuel injection rate is computed based on a falling waveform and a rising waveform of the fuel pressure. The falling waveform represents the fuel pressure detected by a fuel sensor during a period in which the fuel pressure increases due to a fuel injection rate decrease. The rising waveform represents the fuel pressure detected by the fuel sensor during a period in which the fuel pressure decreases due to a fuel injection rate increase. The falling waveform and the rising waveform are modeled by modeling functions. A reference pressure is computed based on pressure during a specified time period before the falling waveform is generated. An intersection pressure is computed, at which the straight lines expressed by the modeling functions intersect to each other. The maximum fuel injection rate is computed based on a fuel pressure drop from the reference pressure to the intersection pressure. | 09-30-2010 |
20100262355 | METHOD AND DEVICE FOR EXAMINING A VALVE LIFT SWITCHING PROCESS - In a method and a device for examining a valve lift switching process in a motor vehicle the occurrence or the number of switching errors is reduced. The method has the steps of detecting whether a switching error and/or an external event occurs that may influence the mode of operation of the valve lift switching; blocking the valve lift switching if a switching error and/or an external event has occurred; activating and examining the valve lift switching during at least one uncritical operating condition; releasing the valve lift switching if the valve lift switching does not show any abnormalities during monitoring. | 10-14-2010 |
20100262356 | INTERNAL COMBUSTION ENGINE SYSTEM, METHOD OF CONTROLLING INTERNAL COMBUSTION ENGINE SYSTEM, AND VEHICLE - An internal combustion engine system includes: an internal combustion engine; a valve regulating exhaust gas flow rate to an intake system; an exhaust gas recirculation system opening the valve to recirculate the exhaust gas to the intake system; an intake air flow rate detecting device detecting air flow rate introduced into the engine; and a controller, when fuel injection is stopped, controlling the engine to start the fuel injection at a rate obtained by adding a first flow rate to a reference flow rate for a stoichiometric air-fuel ratio based on the detected air flow rate when the valve opening degree is lower than a predetermined degree, and controlling the engine to start the fuel injection at a rate obtained by adding a second flow rate, larger than the first flow rate, to the reference flow rate when the valve opening degree is no less than the predetermined degree. | 10-14-2010 |
20100268439 | CONTROL OF FUEL PUMP BY QUANTIFYING PERFORMANCE - An engine control system comprises a fuel pump control module and a diagnostic module. The fuel pump control module controls a pressure pump to inject fuel into a fuel rail. The diagnostic module determines an estimated pressure increase within the fuel rail based on the injected fuel, compares an actual pressure increase within the fuel rail to the estimated pressure increase, and indicates when the actual pressure increase is less than the estimated pressure increase. | 10-21-2010 |
20100268440 | METHOD AND DEVICE FOR THE CALIBRATION A PIEZO-ACTUATOR THAT IS ACTUATED IN A MOTOR VEHICLE FOR DRIVING A SWITCHING VALVE - In a method for calibration, a piezo-actuator ( | 10-21-2010 |
20100268441 | CONTROLLER FOR FUEL PUMP - When a starter is started, a start-control duration time is established based on a fuel pressure at engine starting and a target fuel pressure. The start-control duration time corresponds to a duration after the engine is started until a difference between an actual fuel pressure in an accumulator and a target fuel pressure becomes lower than a specified value in a case that the fuel pump discharges the fuel at a maximum rate. A fuel pump discharges the fuel at the maximum rate during the estimated start-control duration time. | 10-21-2010 |
20100268442 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A control device for an internal combustion engine employing PCCI combustion, capable of realizing high-stability operation of the engine throughout a large operation area, is provided. The engine control device comprises a fuel supply system which supplies light oil or mixed fuel containing light oil to the engine, a gas supply system which supplies hydrogen to the engine, and a required premixed gas calculating unit which previously stores and uses multiple combustion waveforms (changing depending on hydrogen addition concentration) as data. The required premixed gas calculating unit selects one of the combustion waveforms so as to achieve high thermal efficiency depending on the status of the engine and determines the hydrogen addition concentration (addition concentration of the hydrogen to be supplied to the engine) corresponding to the selected combustion waveform, by which the generation of PM and NOx can be reduced while also improving the thermal efficiency of the engine. | 10-21-2010 |
20100268443 | Method and system for providing fuel to internal combustion engines - A method for providing fuel to internal combustion engines including fuel activation prior to injection, comprising:
| 10-21-2010 |
20100274464 | CLOSED-LOOP ADAPTATION OF HOMOGENOUS CHARGE COMPRESSION IGNITION OPERATING ZONE BASED ON RINGING INDEX - An engine control system comprises a ringing index (RI) determination module, a fueling threshold determination module, and a combustion mode determination module. The ringing index (RI) determination module determines an RI value of a cylinder of an engine and compares the RI value and a predetermined RI threshold. The fueling threshold determination module determines a fueling threshold and adjusts the fueling threshold based on the comparison of the RI value and the RI threshold. The combustion mode determination module selects a combustion mode for the engine based on a comparison of a current fueling rate and the fueling threshold. | 10-28-2010 |
20100274465 | HCCI MODE SWITCHING CONTROL SYSTEM AND METHOD - A control system and method for operating an engine includes a transition module that commands engine control from a first homogeneous charge compression (HCCI) mode to a second HCCI mode. The control system also includes a fuel delivery module that operates the engine in a stratified charge operation mode after commanding engine control from the first HCCI mode to the second HCCI mode and discontinues the stratified charge operation thereafter. | 10-28-2010 |
20100274466 | INTAKE CONTROL SYSTEM AND METHOD FOR INTERNAL COMBUSTION ENGINE - An intake control system for an internal combustion engine, which is capable of suppressing a change in an intake pressure caused by a change in a target intake air amount even in a transient operating condition in which the target intake air amount is varied, thereby making it possible to control the intake pressure stably and accurately. The intake control system controls an intake air amount by an intake valve lift, and controls intake negative pressure by a throttle valve. The system limits a target intake air amount based on upper and lower limit values set according to the intake valve lift and an intake cam phase, and corrects the target intake air amount by averaging the same using averaging calculation such that the change therein is delayed. A throttle valve opening is set according to the corrected target intake air amount. | 10-28-2010 |
20100274467 | FUEL-PRESSURE CONTROLLER FOR DIRECT INJECTION ENGINE - When a specified learning execute condition is established, the high-pressure pump is stopped so that the fuel pressure in the high pressure fuel passage is made equal to the fuel pressure in the low pressure fuel passage. A low pressure fuel control is executed to control a driving voltage of the low-pressure pump based on the operational characteristic of the low-pressure pump. A driving voltage of the low-pressure pump is gradually corrected so that the difference between the detected high fuel pressure and a target low fuel pressure becomes small. A driving voltage correcting amount is learned as the control error of the low pressure fuel control. The driving voltage correction amount is stored as the learning correction amount, and the driving voltage of the low-pressure pump is corrected by means of the learning correction amount. | 10-28-2010 |
20100280741 | FUEL PRESSURE SENSOR PERFORMANCE DIAGNOSTIC SYSTEMS AND METHODS BASED ON HYDRODYNAMICS OF INJECTON - An engine control system comprises a model pressure determination module and a sensor diagnostic module. The model pressure determination module determines a modeled fuel rail pressure based on an injection duration of a fuel injector and a desired fuel mass injected by the fuel injector. The sensor diagnostic module generates a status of a fuel rail pressure sensor based on a comparison of the modeled fuel rail pressure and a sensed fuel rail pressure. | 11-04-2010 |
20100280742 | CONTROL SYSTEM AND METHOD FOR CONTROLLING AN ENGINE IN RESPONSE TO DETECTING AN OUT OF RANGE PRESSURE SIGNAL - A method and control module for operating an engine that includes a pressure range determination module that determines a pressure value for a pressure sensor in a fuel rail is out of range. A fuel rail pressure estimate module that determines a predicted pressure value. An engine control module that operates the engine using the predicted pressure value. | 11-04-2010 |
20100280743 | INDIVIDUAL ACCUMULATOR, HIGH-PRESSURE COMPONENT, AND COMMON RAIL FUEL INJECTION SYSTEM, AS WELL AS AN INTERNAL COMBUSTION ENGINE, ELECTRONIC CONTROL UNIT, AND METHOD FOR THE OPEN-LOOP AND/OR CLOSED-LOOP CONTROL OF AN INTERNAL COMBUSTION ENGINE - An individual accumulator for a high-pressure component of a high-pressure fuel guide of a common rail fuel injection system. The individual accumulator is equipped with a pressure sensor, and the common rail fuel injection system is equipped with a source of high pressure and a fuel injector, which has a fluid connection with this source of high pressure via the high-pressure fuel guide, for injecting the fuel into a working chamber of an internal combustion engine. The pressure sensor is designed as a strain sensor. | 11-04-2010 |
20100286892 | METHOD AND DEVICE FOR THE DIAGNOSIS OF THE CYLINDER-SELECTIVE UNEVEN DISTRIBUTION OF A FUEL-AIR MIXTURE FED TO THE CYLINDERS OF AN INTERNAL COMBUSTION ENGINE - With an internal combustion engine ( | 11-11-2010 |
20100286893 | Method And Apparatus For Determining A Normal Combustion Characteristic For An Internal Combustion Engine From An Accelerometer Signal - The method comprises operating a calibration engine, and collecting combustion characteristic data and reference accelerometer signals, which are correlated with each other and stored in a calibration table. The calibration table can be used by an engine to determine a real-time normal combustion characteristic when the engine is operating by collecting a real-time accelerometer sensor signal and cross correlating with the correlated data stored in the calibration table. Accordingly, the apparatus comprises a calibration engine comprising a calibration sensor, a reference accelerometer sensor and a data storage device for storing the collected calibration data that is correlated with the collected reference accelerometer signals, and an engine equipped with an accelerometer sensor, a calibration table and an electronic engine controller programmed to receive real-time accelerometer signals and cross correlate them with reference accelerometer signals to determine a real-time normal combustion characteristic. | 11-11-2010 |
20100292909 | INJECTION ADVANCEMENT FOR PISTON COOLING IN SPARK IGNITION DIRECT INJECTION ENGINES - An engine system comprises a temperature determination module, a temperature comparison module, and a fuel injection control module. The temperature determination module determines an engine temperature. The temperature comparison module compares the engine temperature and a temperature threshold. The fuel injection control module adjusts a timing of fuel injection from a first range of an intake stroke to a second range of the intake stroke based on the comparison. The first range and the second range do not overlap. | 11-18-2010 |
20100292910 | METHOD FOR REDUCING DIESEL ENGINE EMISSIONS, AND DIESEL ENGINE - A method for controlling combustion in a multi-cylinder engine includes injecting fuel into at least one cylinder of the multi-cylinder engine and, for each cylinder, separately controlling at least one fuel injection parameter to produce a desired exhaust composition for that cylinder. A multi-cylinder engine is also disclosed. | 11-18-2010 |
20100299046 | Method for Controlling the Air System In an Internal Combustion Engine - In a method for closed loop controlling the air system in an internal combustion engine, in particular a diesel internal combustion engine with a first actuating element for recirculated exhaust gas in the exhaust gas recirculation tract and a second actuating element for air in the inlet tract, the two actuating elements being adjusted as a function of each other. In order to increase the quality of closed loop control, provision is made for each actuating element to be controlled separately by its own respective controller, each controller being optimally configured for the respective controlled system, and a target value being provided for each controller. | 11-25-2010 |
20100299047 | METHOD AND DEVICE FOR OPERATING A GAS INJECTION SYSTEM OF A GAS FUEL AND A LIQUID FUEL OPERATED INTERNAL COMBUSTION ENGINE - In a method for generating an internal combustion engine configured to run on both a gas fuel and a liquid fuel, the shutoff valve of the gas injection system is initially closed, the engine is then operated with the liquid fuel, and subsequently all gas injection valves of the gas injection system are opened in a predefined pattern while the shutoff valve is still closed. | 11-25-2010 |
20100299048 | ENGINE FOR AN AGRICULTURAL HARVESTER HAVING ISOCHRONOUS TORQUE CURVE WITH POWER BULGE - A method of operating an IC engine in an agricultural harvester includes the steps of: operating the IC engine in a normal mode with a base torque curve as a function of engine operating speed and engine power output, the base torque curve being generally isochronous at a rated operating speed over a power output range terminating at a rated power output; and operating the IC engine in a boost mode with a boost torque curve when a power boost is required above the rated power output, the boost torque curve having a power output which is above the base torque curve over a predefined range of the operating speed. | 11-25-2010 |
20100299049 | CONTROL STRATEGY FOR OPERATING A HOMOGENEOUS-CHARGE COMPRESSION-IGNITION ENGINE SUBSEQUENT TO A FUEL CUTOFF EVENT - A multi-cylinder spark-ignition direct-injection internal combustion engine is re-fired subsequent to a fuel cutoff event wherein fuel to all cylinders is cutoff. Re-firing the engine includes selectively firing individual cylinders during re-firing engine cycles exclusively at a predetermined fixed fuel mass until all cylinders have been fired at least once, whereafter subsequent firing of individual cylinders is not limited to the predetermined fixed fuel mass. | 11-25-2010 |
20100299050 | METHOD AND APPARATUS FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE - In a method for controlling an internal combustion engine comprising an intake pipe and a throttle valve that is arranged therein, the pressure in the intake pipe is regulated by modifying the opening angle of the throttle valve, and the desired pressure value is adjusted when the valve lift of the internal combustion engine changes. An apparatus for controlling an internal combustion engine has a mechanism for regulating the intake pipe pressure, the mechanism allowing the opening angle of the throttle valve to be influenced as a controlled variable. In addition, at least one device is provided for changing the valve lift of the internal combustion engine while a device is provided for adjusting the desired pressure value to the valve lift. | 11-25-2010 |
20100305829 | ETHANOL CONTENT DETERMINATION SYSTEMS AND METHODS - A combustion control system for a vehicle comprises a position determination module and an ethanol determination module. The position determination module determines a crankshaft angle where a predetermined percentage of a fuel was combusted within a cylinder of an engine during an engine cycle based on one of pressure within the cylinder measured by a cylinder pressure sensor during the engine cycle and torque on a crankshaft measured by a torque sensor during the engine cycle. The ethanol determination module determines an ethanol content of the fuel based on the crankshaft angle. | 12-02-2010 |
20100305830 | CONTROL SYSTEMS AND METHODS FOR FUEL AND SECONDARY AIR INJECTION - An engine control system comprises an actuator control module and a tertiary injection module. The actuator control module provides secondary air to an exhaust system when a catalyst light-off mode is enabled and provides first and second injections of fuel to a cylinder during each engine cycle while the catalyst light-off mode is enabled. The tertiary injection module selectively provides a third injection of fuel to the cylinder during an exhaust phase of each engine cycle while the catalyst light-off mode is enabled. The first, second, and third injections are each separated by a period of time. | 12-02-2010 |
20100305831 | METHOD AND SYSTEM FOR ADAPTING SMALL FUEL INJECTION QUANTITIES - A method and system for controlling an engine includes a normal individual cylinder fuel correction determination module determining normal pulse mode individual cylinder fuel corrections in a normal pulse mode. The system also includes a split pulse enable module operating the fuel injectors in split pulse mode having a linear pulse and a ballistic pulse smaller than the linear pulse. The system also includes a split pulse individual cylinder fuel correction determination module determining split pulse mode individual cylinder fuel corrections in the split pulse mode. The system also includes a ballistic pulse adaptation module adjusting ballistic pulse calibration values in response to the normal pulse mode individual cylinder fuel corrections and the split pulse mode individual cylinder fuel corrections to form adjusted ballistic pulse calibration values. | 12-02-2010 |
20100305832 | Engine Control Device - There is provided an engine control device which can accurately calculate a compensation coefficient used for transient compensation of an ignition timing without involving a complicated and large-scale calculation model in order to prevent a combustion deterioration and the like caused by a mechanical response delay and the like of the variable valve timing mechanism at a transition time such as an acceleration/deceleration time. The angular difference between each current real phase of the intake/exhaust valves | 12-02-2010 |
20100318276 | Control Strategy For A Diesel Engine During Lean-Rich Modulation - The control system controls lean-rich modulation of fueling using a set of engine specific fueling parameter maps. One set of maps is a set of lean fueling maps, and another set is a set of rich fueling maps. The two map sets each comprise a fuel injection pressure map, an EGR valve opening map, and a VGT valve opening map, established for the particular diesel engine, with neither form of modulation requiring post injection. The strategy is represented by a flow diagram and is useful in regenerating an NOx adsorber catalyst in the engine exhaust system in a manner that controls torque so that the regeneration process is transparent to the operator of the vehicle, while producing significant fuel savings. | 12-16-2010 |
20100318277 | MULTI-FUEL ENGINE CONTROL SYSTEM AND METHOD - Various example approaches are described, one of which includes a method for adjusting relative delivery of liquid and gaseous fuel to a cylinder of the engine to effect rapid changes in cylinder air charge via changes in the displacement of fresh air by the gaseous fuel. In one particular approach, turbocharger lag is addressed by decreasing gaseous fuel injection while increasing liquid fuel injection to increase cylinder fresh air over and above any changes to fresh air via the throttle, wastegate, and/or turbocharger. | 12-16-2010 |
20100318278 | ENGINE VALVE LIFT CONTROL SYSTEMS AND METHODS FOR REDUCED FUEL CONSUMPTION - A fuel control system of an engine includes a fuel economy module. The fuel economy module determines a first valve lift state and a second valve lift state of a valve of the engine. The fuel economy module generates a first fuel consumption signal based on the first valve lift state and an engine torque request signal, and generates a second fuel consumption signal based on the second valve lift state and the engine torque request signal. The fuel control system also includes a valve lift state module. The valve lift state module selects one of the first valve lift state and the second valve lift state based the first fuel consumption signal and the second fuel consumption signal. The valve lift state module generates a valve lift select signal. The valve lift select signal indicates the selected one of the first valve lift state and the second valve lift state. | 12-16-2010 |
20100318279 | SYSTEM AND METHOD FOR CONTROLLING AN ENGINE DURING TRANSIENT EVENTS - Systems and methods for controlling an internal combustion engine include adjusting fuel delivered to a cylinder during a transient event by an amount indexed by number of combustion events after detecting the transient event. A base fueling parameter may be adjusted by an adaptive correction value indexed by combustion events after the transient event is detected, with the adaptive value determined using air/fuel ratio difference of previous combustion events during similar transient operating conditions associated with the same combustion event index number. Ionization sensor signal characteristics may be used to determine actual air/fuel ratios used to determine the air/fuel ratio difference and corresponding adaptive correction values. The adaptive values may be modified in response to a vehicle refueling event based on an amount of added fuel relative to existing fuel in the vehicle fuel tank. | 12-16-2010 |
20100318280 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - In this apparatus, maintaining control (time t | 12-16-2010 |
20100324801 | SYSTEM FOR SUPPLY OF LPG/AMMONIA FOR DIRECT-INJECTION PETROL OR DIESEL ENGINES - A system for supply of LPG/ammonia for direct-injection petrol or diesel engines comprises, in combination: an electronic control unit for regulation and control of the strategies ( | 12-23-2010 |
20100324802 | ABNORMALITY DETECTION APPARATUS AND ABNORMALITY DETECTION METHOD FOR AIR/FUEL RATIO SENSOR - An abnormality detection apparatus includes: an air/fuel ratio control portion that performs a control of fluctuating the air/fuel ratio between rich and lean states; a data acquisition portion that acquires, as data for detecting abnormality, a parameter that corresponds to responsiveness during change of output of the A/F sensor between rich and lean peaks during the control; a straight line setting portion that sets a straight line that represents a tendency of change of the parameter relative to change in intake air amount of the engine based on the data acquired by performing acquisition of the data a plurality of times; and an abnormality determination portion that determines the presence/absence of abnormality of the A/F sensor based on comparison between the gradient of the set straight line and an abnormality criterion value. | 12-23-2010 |
20100332105 | Distributed Engine Control System - A method and apparatus for distributing control of multiple engines amongst the engines in a power generation system that has a central controller, comprises the steps of: receiving aboard each engine from the central controller a control signal representative of a desired fuel flow; metering fuel at a fuel metering point aboard each engine; sensing at least one parameter aboard each engine proximate the fuel metering point that is representative of fuel flow; adjusting the fuel metering aboard each engine to cause the sensed parameter to correlate to the desired fuel flow; and transmitting a monitoring signal from each engine to the central controller that is representative of the adjusted fuel metering. | 12-30-2010 |
20100332106 | METHOD AND APPARATUS FOR CONTROLLING LIQUID FUEL DELIVERY DURING TRANSITION BETWEEN MODES IN A MULTIMODE ENGINE - A method of transitioning between operating modes in a multimode engine including a diesel-only mode and a diesel pilot, gas mode includes first terminating or initiating the supply of a gaseous fuel, depending on whether the system is transitioning to or from the pilot mode, and thereafter decreasing or increasing the diesel fuel supply quantity. Liquid fuel supply quantity is preferably altered in steps rather than discretely in order to avoid exceeding the lean limit of gas lambda. The number of steps and the percentage decrease or increase in each step preferably varies based at least in part on prevailing speed and load conditions. | 12-30-2010 |
20100332107 | ELECTRONIC DIESEL ENGINE CONTROL DEVICE AND METHOD FOR AUTOMATIC IDLE-DOWN - An electronic engine controller utilizes a controller network interface for direct communication between an electronic engine control unit associated with an engine and the controller to monitor and control the engine. The controller uses a microprocessor and custom programmable software to monitor and determine operational parameters as well as institute and send electronic commands to the electronic control unit in a pre-determined response operational framework. The controller monitors certain engine operational parameters when enabled. If the engine remains in an unloaded condition for an extended period of time, the controller automatically throttles the engine down to idle condition to save fuel. It does this by issuing commands to the electronic control unit which controls operational functions or parameters of the engine. The engine parameters and idle time are configurable, allowing the setup to be optimized for a particular method of operation, regardless of the specific application. | 12-30-2010 |
20110010074 | Methods Of Controlling An Internal Combustion Engine Including Multiple Fuels And Multiple Injectors - A method for controlling the start of combustion and peak burn rate of an internal combustion engine system on a cycle-to-cycle basis including multiple direct fuel injectors, multiple indirect fuel injectors, and multiple liquid fuels. The actual start of combustion and actual peak burn rate are calculated using in-cylinder pressure or ionization. A predetermined start of combustion and a predetermined peak burn rate are selected. The start of combustion and peak burn rate control algorithm includes controlling a fuel ratio, an injection ratio, and a residual gas recirculation ratio. A predetermined fuel ratio, a predetermined injection ratio, and a predetermined residual gas recirculation are calculated by combining feed forward ratios and closed loop control ratios corresponding to the three ratios. The predetermined ratios are employed so that the system achieves the predetermined start of combustion and predetermined peak burn rate. | 01-13-2011 |
20110010075 | METHOD, APPARATUS, AND SYSTEM TO MEASURE, RECORD, AND CONTROL EXHAUST PRODUCTS FROM AN ICE - A method, apparatus, and system to measure, record, and control exhaust products from an internal combustion engine (ICE) are disclosed. Measurements of the exhaust products of an ICE are recorded and made available. The measurements provide the inputs for one of a variety of different algorithms to determine the proper flow rates for a first and a for second fuel being feed to an ICE to achieve one or more goals relating to at least one of the measured exhaust products. These flow rates are then enforced to control the exhaust products. | 01-13-2011 |
20110010076 | METHOD AND DEVICE FOR OPERATING AN INTERNAL COMBUSTION ENGINE - In a method and a device for operating an internal combustion engine, a first variable characterizing the air-mass flow to the internal combustion engine is determined, and a second variable characterizing the air-mass flow is determined. The second variable characterizing the air-mass flow is used to derive a third variable characterizing the air-mass flow, which is delayed in time with respect to the second variable characterizing the air-mass flow. A difference is formed between the second variable characterizing the air-mass flow and the third variable characterizing the air-mass flow. The first variable characterizing the air-mass flow is corrected by the difference. | 01-13-2011 |
20110015849 | INTAKE AIR CONTROL APPARATUS FOR VEHICULAR INTERNAL COMBUSTION ENGINE - An apparatus is provided for controlling an intake valve of a vehicular internal combustion engine. The apparatus includes a variable valve operating mechanism configured to vary a valve lift and a valve phase angle of the intake valve, and a controller. The controller calculates a desired first target value at a current engine operating condition, a reacceleration estimated value based on an engine rotational speed and estimated operating load upon reacceleration, and a second target value at which engine torque is equivalent to engine torque at the first target value. The controller sets the first target value as a control target value, and then switches the control target value to the second target value when a minimum clearance between the intake valve and a piston is determined to become less than a permissible value during variation of the intake valve from the first target value toward the reacceleration estimated value. | 01-20-2011 |
20110022287 | Control Chip for Providing the Basic Functionality of a Control Unit - A control chip for providing the basic functionality of a control unit includes a voltage supply having at least two, in particular three, output voltages; at least two, in particular three, sensor power supplies, in particular having 5-V and/or 3.3-V output voltage; at least one driver for bidirectional interfaces; a CAN driver; a follower control; a main relay output stage having a diagnostic function; at least one bidirectional serial interface for controlling the output stages and for communicating with a microcontroller; at least six power output stages, in particular having rated currents of 0.6 A to 3 A; at least one low-level signal output, in particular having a rated current of 50 rtiA, and four ignition drivers. | 01-27-2011 |
20110022288 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A control device that is used with an internal combustion engine to improve both the response and controllability of torque generated by the internal combustion engine. The control device calculates an operation amount of an intake actuator in accordance with a demanded air amount. The control device then calculates a torque that is generated when the intake actuator is operated by the calculated operation amount at a predetermined ignition timing setting, and calculates an ignition timing retard amount that is necessary to achieve a demanded torque in accordance with the difference between the calculated torque and the demanded torque. The control device ensures that the demanded torque and a demanded efficiency are both reflected in the demanded air amount. | 01-27-2011 |
20110022289 | METHOD OF CONTROLLING AN ELECTRICALLY ASSISTED TURBOCHARGER - Suitable for retrofitting conventional turbo charged engines, an electrically controlled turbocharger is installed in a Compression Ignition Direct Injection (CIDI) Engine and controlled to maintain a predetermined optimal air/fuel ratio throughout the operating range of the engine. Electrical energy is applied to the motor/generator of the turbocharger to boost its operation when the engine is being operated at relatively low speeds or under high torque loads and the engine exhaust gases applied to the turbine are insufficient to drive the turbocharger to maintain the predetermined air/fuel ratio. Electrical energy is produced by the motor/generator of the turbocharger when the engine is being operated at higher speeds and the engine exhaust gases applied to the turbine are excessive in driving the turbine to maintain the predetermined air/fuel ratio. By capturing the electrical energy produced by the motor/generator and adjusting the load, the turbine is slowed down to maintain the predetermined air/fuel ratio. | 01-27-2011 |
20110022290 | PRESSURE SENSOR FAILURE DIAGNOSIS METHOD AND COMMON RAIL TYPE FUEL INJECTION CONTROL APPARATUS - It is possible to perform a failure diagnosis of a pressure sensor with a simple structure without installing a dedicated circuit for the failure diagnosis. | 01-27-2011 |
20110029217 | FUEL INJECTION PIN DISPLACEMENT PROFILE INTERPOLATION - According to various embodiments of the invention, a map of injection pin profiles is experimentally determined at various locations spanning an engine operating plane. Injector pin profiles at points within the continuum spanned by the experimentally determined profiles are determined by interpolating between surrounding experimentally determined injector pin profiles. Various methods are used to adjust the interpolation procedure in cases where one injector pin profile has more or fewer points than the other injector pin profile | 02-03-2011 |
20110029218 | Engine Control Apparatus - The present invention performs correction appropriately according to errors in the fuel system and air system respectively and corrects both variations in the air-fuel ratio and torque. When the difference between a target air-fuel ratio and a real air-fuel ratio is equal to or below a predetermined value when feedback control based on the air-fuel ratio of an exhaust manifold | 02-03-2011 |
20110029219 | ALTERNATE FUEL BLENDING SYSTEM AND ASSOCIATED METHOD - A fuel control system for controlling the use of primary fuel and alternate fuel in an internal combustion engine without cross-contamination of fuel types. Cross-contamination of fuel types may eliminate the ability to receive certain benefits or financial incentives associated with use of alternate fuel, including but not limited to RINs, credits, and subsidies. In one embodiment, primary and/or alternate fuel are controllably delivered from sources to a flow cell. If blending is desired, both primary and alternate fuels are delivered to the flow cell. The engine is fed with the resulting primary fuel, alternate fuel, or blended mixture of fuel from the flow cell. The flow cell contains a bypass inlet port adapted to receive excess fuel not consumed by the engine in lieu of the excess fuel being returned to the primary and/or alternate fuel sources. In this manner, cross-contamination of the fuel sources can be avoided. | 02-03-2011 |
20110035133 | METHOD FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE - A system and method are disclosed for controlling an internal combustion engine in which actual concentration of combusted gas in the intake is compared with desired concentration of combusted gas in the intake. When a difference is detected, at least one of start of injection timing and quantity of fuel injected is adjusted in accordance with the difference. The actual concentration of combusted gas in the intake is estimated based on engine sensors such as an oxygen sensor coupled to an engine intake. The adjustment of injection timing and/or quantity of fuel is performed, according to some embodiments, during a transition between a low temperature combustion mode and a standard diesel combustion mode. | 02-10-2011 |
20110040472 | METHOD AND SYSTEM FOR FUEL INJECTION CONTROL TO REDUCE VARIATION - A method and system for controlling an engine includes a desired fuel mass determination module that determines fuel mass for injection into a cylinder. The system also includes a split determination module that splits the fuel mass into split fuel masses and a pulsewidth determination module that converts the split fuel masses into injection pulsewidths outside of an injector operation exclusion zone. | 02-17-2011 |
20110040473 | METHOD FOR REGULATING AN AIR/FUEL RATIO AND METHOD FOR RECOGNIZING A FUEL QUALITY - In a method for regulating an air/fuel ratio, and in a method for recognizing a fuel quality, a lambda sensor is provided in the exhaust of the internal combustion engine, wherein after fueling of the tank the second adaption value is first adjusted due to a deviation of the lambda signal from the target signal occurring such that the lambda signal oscillates again about the target value, wherein the second adaption value is determined as a function of the current adaption value and as a function of the currently determined quality of the fuel. In a method for recognizing a fuel quality, particularly of a mixture ratio of two types of fuel, the lambda signal of the lambda sensor is analyzed for recognizing the quality. | 02-17-2011 |
20110046865 | Motorized Vehicles Spark Timing Control for Use with Biofuel Gasoline Mixture - The present invention provides apparatus for varying an engine's combustion spark timing for use of hybrid fuels, such as bio-fuel and gasoline. An operator selectable switch enables or disables an on-board computer selecting between gasoline and bio-fuel mixtures as the on-board fuel so that engine mounted sensors provide data used to determine optimum fuel-ignition spark discharge values from a computerized table. | 02-24-2011 |
20110054761 | CYLINDER-TO-CYLINDER AIR/FUEL RATIO IMBALANCE DETERMINATION SYSTEM OF INTERNAL COMBUSTION ENGINE - A cylinder-to-cylinder air/fuel ratio imbalance determination system obtains an imbalance determination parameter that increases or decreases as a difference between the air/fuel ratios of different cylinders increases, based on output values of an air/fuel ratio sensor, and makes a cylinder-to-cylinder A/F imbalance determination, based on the result of comparison between the imbalance determination parameter and a threshold value for imbalance determination. The determination system changes the amount of fuel injected into one or more of the cylinders so as to create a forced imbalance condition in which the air/fuel ratio of a particular cylinder deviates from the air/fuel ratio of the remaining cylinders, and obtains an air/fuel ratio sensor evaluation parameter (e.g., rate of change ΔAF of the detected air/fuel ratio) in this condition. Then, the determination system determines whether the air/fuel ratio sensor is adequate for making a cylinder-to-cylinder A/F imbalance determination, by comparing the evaluation parameter with a reference parameter (an evaluation parameter obtained based on output values of a reference air/fuel ratio sensor in the same forced imbalance condition). | 03-03-2011 |
20110066354 | METHOD FOR REGENERATING A DIESEL PARTICULATE FILTER - A method is provided for regenerating a diesel particulate filter within a diesel engine system that includes, but is not limited to at least a combustion chamber defined by a reciprocating piston inside a cylinder, at least an exhaust valve for cyclically open the combustion chamber towards an exhaust line, and the diesel particulate filter located in the exhaust line, wherein the method comprises injecting an amount of fuel into the combustion chamber by means of least two consecutive after-injection pulses (AIP | 03-17-2011 |
20110066355 | PROCEUDURE AND CONTROL UNIT FOR OPERATING A SELF-IGNITING OTTO ENGINE - Suggested is a procedure for operating a self-igniting Otto engine (OM) with at least one inlet valve ( | 03-17-2011 |
20110066356 | Rotation angle detecting apparatus - A rotation angle detecting apparatus to detect a rotation angle of a rotating member, including a housing, the rotating member being disposed so as to be rotatable relative to the housing; a fixing member to fix a magnet to the rotating member; and a sensor, fixed to the housing, to detect a rotation angle of the magnet, the rotating member including an abutting part with which the magnet abuts in a direction of a rotation axis of the rotating member, and a supporting part that faces the abutting part with the magnet interposed therebetween to support the fixing member located between the magnet and the supporting part, and the fixing member presses the magnet against the abutting part by coming into contact with the supporting part and the magnet without allowing a section contacting the supporting part and a section contacting the magnet to overlap with each other. | 03-17-2011 |
20110077838 | EGR FLOW COMPENSATION FOR A DIESEL AIR HANDLING SYSTEM - A method is disclosed for adjusting a target EGR mass flow in response to a current charge flow and target EGR fraction. The method includes interpreting an air-fuel ratio and a target air-fuel ratio. The method further includes interpreting a charge flow and a target EGR fraction. The method further includes determining an adjusted target EGR mass flow based on the air-fuel ratio, the target air-fuel ratio, the charge flow, and the target EGR fraction. The method further includes controlling an actuator based on the adjusted target EGR mass flow. | 03-31-2011 |
20110077839 | SYSTEM AND METHOD TO OPERATE A FUEL CELL IN THE EXHAUST OF AN INTERNAL COMBUSTION ENGINE - A system for a vehicle having an engine with an exhaust comprises a fuel cell coupled in the engine exhaust wherein the fuel cell has an output circuit; a battery coupled with the fuel cell; and a controller receiving a signal indicative of an electric output of the fuel cell output circuit, and adjusting one of the fuel amount and the air amount supplied to the engine in response to said signal to affect air-fuel ratio of the exhaust of the engine. | 03-31-2011 |
20110087422 | Internal Combustion Engine Having Common Power Source For Ion Current Sensing and Fuel Injectors - An electrical power system for an engine powered at least in part by a battery having a battery voltage and including a fuel injector and at least one ionization sensor includes at least one common power supply connected to the fuel injector and the ionization sensor and supplying a voltage higher than the battery voltage for operation of the fuel injector and the ionization sensor at least during an ionization sensing period after spark discharge. | 04-14-2011 |
20110093183 | Method for determining at least one rail pressure/closing current value pair for a pressure control valve of a common rail injection system - A method for determining at least one rail pressure/closing current value pair for a pressure control valve of a common rail injection system of an internal combustion engine includes the following steps: operating the common rail injection system in an MU control mode; reducing the control current for the pressure control valve; detecting the pressure curve over time in the common rail and determining the rail pressure; determining the closing current based on the detected pressure curve; and associating the determined rail pressure and the determined closing current with a rail pressure/closing current value pair. | 04-21-2011 |
20110093184 | CONTROL CIRCUIT FOR AN ELECTROCHEMICAL GAS SENSOR AND METHOD FOR ADJUSTING AN ELECTROCHEMICAL GAS SENSOR - An electrochemical gas sensor is provided for a motor vehicle. The gas sensor contains a digital controller and a detection circuit. The digital controller captures, by a feedback input, a value of the voltage applied to the inside of the gas sensor cell. The output of the digital controller provides a control value for the current flowing in the gas sensor cell. The detection circuit is used to detect the properties of the gas sensor cell and to adjust the dynamic control properties of the digital controller corresponding to the properties of the gas sensor cell. | 04-21-2011 |
20110106404 | METHOD FOR CONTROLLING AT LEAST ONE SOLENOID VALVE - Described is a method for controlling a magnet valve for controlling the injection of fuel into an internal combustion engine, which method permits precise fuel metering in the no-load running or in the lower partial load range without changes to the hardware of the fuel injection system being necessary. | 05-05-2011 |
20110106405 | METHOD AND SYSTEM FOR DETECTING OPERATING ERRORS IN A VARIABLE VALVE TIMING ENGINE - A method and control module includes a manifold absolute pressure comparison module that determines a function of the manifold absolute pressure and an average manifold absolute pressure for a plurality of cylinders and that compares the manifold absolute pressure parameter to a manifold absolute pressure threshold. The control module includes a misfire event module that compares the misfire parameter to a misfire threshold. A hardware remedy module performs a valve actuation hardware remedy in response to comparing the manifold absolute pressure and comparing the misfire parameter. | 05-05-2011 |
20110106406 | CONTROL APPARATUS AND CONTROL METHOD FOR VARIABLE VALVE OPERATING MECHANISM - A control apparatus and a control method for a variable valve operating mechanism are employed for a multi-cylinder internal combustion engine including the variable valve operating mechanism and a valve stop mechanism. The variable valve operating mechanism includes a variable mechanism portion that changes a valve characteristic of an engine valve, and an actuator that drives the variable mechanism portion. The valve stop mechanism stops opening/closing of the engine valve in at least one cylinder. A controlled variable for the actuator is set so that an actual value of the valve characteristic matches a target value. A control characteristic value used to set the controlled variable, and used to make the actual value match the target value, is set such that when a reduced-cylinder operation is performed, the control characteristic value is different from the control characteristic value when an all-cylinder operation is performed. | 05-05-2011 |
20110106407 | METHOD AND SYSTEM FOR CONTROLLING FUEL PRESSURE - Methods, a fuel supply system, and a computer readable medium embodying a computer program product are provided for controlling rail pressure in a fuel supply system comprising a fuel pump, an injector and a rail connecting the injector to the pump. At least one of the methods includes, but is not limited to establishing a relationship between said rail pressure and a leak rate of the injector, estimating a fuel drain rate from said rail based on a fuel injection rate, the rail pressure and said rail pressure/leak rate relationship, estimating a desired intake flow rate of said pump based on said fuel drain rate, and controlling the pump to operate at said desired intake flow rate. | 05-05-2011 |
20110106408 | ENGINE CONTROL SYSTEM WITH ALGORITHM FOR ACTUATOR CONTROL - An engine control apparatus which may be employed in automotive vehicles. The engine control apparatus is equipped with a controlled variable arithmetic expression which defines correlations between a plurality of combustion parameters and a plurality of controlled variables of actuators for control of an operation of the engine to calculate a combination of command values to be outputted to the actuators for regulating the controlled variables needed to achieve target values of the combustion parameters. When one of the command values is produced outside an allowable operation range of a corresponding one of the actuators, the engine control apparatus corrects or limits the one of the command values to an upper or a lower limit of the allowable operation range, thereby ensuring the stability in bringing engine output characteristics close to desired values. | 05-05-2011 |
20110106409 | METHOD AND DEVICE FOR THE PRESSURE WAVE COMPENSATION DURING CONSECUTIVE INJECTIONS IN AN INJECTION SYSTEM OF AN INTERNAL COMBUSTION ENGINE - A method and a device for controlling an injection system of an internal combustion engine are described, in which at least two consecutive partial injections are compensated for using pressure wave compensation, it is provided in particular that two test injections having a specified time interval to one another are triggered in a cylinder of the internal combustion engine, the total injection quantity of the at least two partial injections is ascertained, and a deviation between the ascertained total injection quantity and an expected total injection quantity is assumed as the error of the pressure wave compensation and a correction value for the pressure wave compensation is determined therefrom. | 05-05-2011 |
20110106410 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE HAVING VARIABLE VALVE MECHANISM - In a control device for an internal combustion engine includes an intake valve, a variable valve mechanism capable of controlling a closing timing and an operating angle of the intake valve continuously and variably, a detection unit for detecting a possibility of pre-ignition, and a throttle for controlling an intake air amount such that when the possibility of pre-ignition is detected, the intake valve closing timing is retarded from bottom dead center by increasing the intake valve operating angle, the control device includes, an operating angle upper limit limiting value calculation unit that calculates an operating angle upper limit limiting value for limiting an upper limit value of the intake valve operating angle, and a throttle opening upper limit limiting value calculation unit that calculates a throttle opening upper limit limiting value for limiting an upper limit value of a throttle opening on the basis of the intake valve operating angle. | 05-05-2011 |
20110112743 | THROTTLE COMPENSATION FOR SECOND GEAR STARTS IN MANUAL TRANSMISSION VEHICLES - A system and method for throttle control during a second gear start in a vehicle with a manual transmission. A powertrain control module (PCM) is coupled to a throttle and is configured to control movement of the throttle according to a winter mode e-throttle map that is stored in the PCM. The PCM is configured to control the throttle based upon the winter mode e-throttle map upon detection of a second gear start condition. | 05-12-2011 |
20110112744 | Actuating device, controller for operating the actuating device and method for operating an actuating device - An actuating device for providing a physical output quantity includes: a control element for providing the physical output quantity; an actuator unit triggering the control element according to a triggering variable; and a communication unit receiving the triggering variable, which communication unit sends actuator information which contains an indication about a correlation between the provided physical output quantity of the actuating device and the triggering variable. | 05-12-2011 |
20110118955 | SYSTEM AND METHOD FOR CONTROLLING ENGINE TORQUE - An engine control system for a vehicle includes a power request determination module, a desired speed determination module, and a torque control module. The power request determination module determines a power request for an engine based on a request from a driver of the vehicle and a speed of the vehicle. The desired speed determination module determines a desired speed of the engine based on a speed of a turbine in a torque converter of the engine, a state of a clutch in the torque converter, and one of the power request, a first amount of clutch slip, and a second amount of clutch slip. The torque control module determines a desired engine torque based on the desired engine speed and the power request and controls torque output of the engine based on the desired engine torque. | 05-19-2011 |
20110118956 | INTERNAL COMBUSTION ENGINE FUEL INJECTION CONTROL METHOD - In an internal combustion engine provided with a fuel injection valve for injecting fuel into an intake air flow path for each cylinder, there is performed a plurality of fuel injections during one cycle for each cylinder, one injection thereof being performed in synchronization with a period during which an intake valve is being opened and reverse flow of in-cylinder gas into the intake air flow path occurs. | 05-19-2011 |
20110118957 | System and method for preparing an optimized fuel mixture - Aspects of the present invention relate to systems and method for converting ozone and fuel into mechanical energy and waste products. In some embodiments, a super-combustor may be used to provide a combustion engine with an improved ability to combust fuel. Certain embodiments of the invention may provide for an improved spark plug or modified engine having a super-combustor built in. | 05-19-2011 |
20110118958 | METHOD FOR ADAPTING THE PERFORMANCE OF A FUEL PREFEED PUMP OF A MOTOR VEHICLE - In a method for adapting the performance of a fuel prefeed pump of a motor vehicle which has a common rail injection system and an internal combustion engine, after the ignition is switched on and before the internal combustion engine is started, adaptation values are determined and stored which are assigned to the fuel prefeed pump and describe its individual performance. After the internal combustion engine is started, the stored adaptation values are taken into consideration during the determining of an actuating signal for the prefeed pump. | 05-19-2011 |
20110125386 | FUEL INJECTOR INTERFACE AND DIAGNOSTICS - A method comprising receiving a fuel injection signal from a first driver circuit via a control line, feeding the fuel injection signal to a second fuel injector driver circuit, sending a control signal output from the second fuel injector driver circuit to a fuel injector, monitoring the fuel injector for degradation based on operation according to the control signal, and in response to degradation of the fuel injector, changing a state of the control line. | 05-26-2011 |
20110125387 | FUEL SUPPLY SYSTEM HAVING PRESSURE CONTROL VALVE - A pressure control valve is provided in a fuel return pipe connected between a high pressure fuel pipe and a fuel pressurizing chamber of a high pressure pump. A pressure relief valve is opened when fuel pressure in a fuel delivery pipe is higher than a first pressure. A first valve body of the pressure relief valve is brought into contact with a stopper so that a movement of the first valve body is limited. A pressure holding valve, which is provided in an inside of the first valve body, is opened when the fuel pressure in the fuel delivery pipe is larger than a second pressure. When the pressure relief valve is opened and the first valve body crashes into the stopper, a lifting amount of a second valve body of the pressure holding valve is increased by inertia of the second valve body, so that extraneous material attached to the second valve body can be removed. | 05-26-2011 |
20110125388 | METHOD FOR DETERMINING AN INDEX OF THE FUEL COMBUSTION IN AN ENGINE CYLINDER - A method is provided for determining an index representing the crank angle at which a given fuel mass fraction has been burnt in a cylinder of the engine during an engine cycle. The method includes, but is not limited to sampling the pressure within the cylinder during the engine cycle, using the pressure samples for determining the heat release rate curve during the engine cycle, using the heat release rate curve for determining the cumulative heat release curve during the engine cycle, determining a minimum value and a maximum value of thee cumulative heat release curve, using the given fuel mass fraction for calculating a target value of the cumulative heat release between the minimum and maximum values, finding a goal point of the cumulative heat release curve that corresponds to the target value, assuming the crank angle corresponding to the goal point as the index. The method further includes, but is not limited to determining an opening angle within the crank angular range corresponding to compression stroke of the engine cycle, determining a closing angle within the crank angular range corresponding to the expansion stroke of the engine cycle, using the opening and closing angles for delimiting between them a first angular window, and limiting the determination of the minimum and maximum values of the cumulative heat release curve within the first angular window. | 05-26-2011 |
20110125389 | METHOD FOR THE DETERMINATION OF THE ACTUAL QUANTITY OF FUEL INJECTED IN AN INTERNAL COMBUSTION ENGINE - A method is provided for the determination of the actual quantity of fuel injected in an internal combustion engine, in particular a Diesel engine. The engine includes, but is not limited to an inlet line and an exhaust line, at least one cylinder and at least an injector for each of the cylinders. The method includes, but is not limited to, during a fuel cut-off state of the engine, at least an injection into one of the cylinders of a nominal fuel test quantity and, in correlation to the test injection, a determination of the air flow quantity MAF at the inlet of the engine, a determination of the parameter λ in the exhaust line of the engine, and a calculation of the actual quantity of fuel Q | 05-26-2011 |
20110130943 | FUEL MANAGEMENT SYSTEMS AND METHODS FOR VARIABLE DISPLACEMENT ENGINES - A fuel management system includes a pedal resistance determination module and a pedal resistance adjustment module. The pedal resistance determination module determines a desired accelerator pedal resistance based on at least one of engine and transmission operating conditions. The pedal resistance adjustment module adjusts a pedal resistance device based on the desired accelerator pedal resistance. | 06-02-2011 |
20110130944 | METHOD FOR AUTOMATICALLY CONTROLLING AN INTERNAL COMBUSTION ENGINE - A a method for automatically controlling an internal combustion engine, in which an individual accumulator pressure (pE) of a common rail system is detected in a measurement interval and stored; in which an evaluation window is determined for the stored individual accumulation pressure (pE), within which window an injection was brought about; in which, in a first step, both a representative injection start and a trial injection end are determined in this evaluation window as a function of the detected pressure values, and, in a second step, both a trial injection start and a representative injection end are determined in this evaluation window as a function of the detected pressure values; in which the representative injection start is checked for plausibility against the trial injection start; and in which the representative injection end is checked for plausibility against the trial injection end. | 06-02-2011 |
20110137539 | Multi-Component Transient Fuel Compensation - A method adjusts fuel injection to account for fuel puddling in the engine intake. The fuel is adjusted based on the ethanol content of the fuel in the puddle, and the make-up of the various fuel components in the puddle. In this way, it is possible to better account for the effects of these parameters on puddle evaporation. | 06-09-2011 |
20110137540 | Internal Combustion Engine and Method for Operating an Internal Combustion Engine of Said Type - During the operation of an internal combustion engine which has at least one sensor for measuring a hydrocarbon content and a mass flow rate of a gas flow through a line, the hydrocarbon content and the mass flow rate of the gas flow are determined. The gas flow through the line is controlled as a function of the determined values. | 06-09-2011 |
20110144886 | DUAL STATE LIQUEFIED PETROLEUM GAS ENGINE ASSEMBLY - An engine assembly may include an engine structure, an intake manifold, and a liquefied petroleum gas (LPG) fuel assembly. The engine structure may define a combustion chamber and the intake manifold may be in communication with the combustion chamber. The LPG fuel assembly may include a LPG fuel tank containing LPG fuel, a liquid LPG fuel injection system in communication with the LPG fuel tank and the combustion chamber, and a vapor LPG fuel injection system in communication with the LPG fuel tank and the intake manifold. | 06-16-2011 |
20110144887 | AXLE TORQUE BASED DRIVER INTERPRETATION WITH POWER SECURITY OF TRANSMISSION RATIOS - A control system includes an axle torque arbitration module, a power security module, a propulsion torque arbitration module, and an actuation module. The axle torque arbitration module determines an axle torque request based on a driver input and a vehicle speed. The power security module determines a secured torque request based on the axle torque request, the vehicle speed, and an engine speed. The propulsion torque arbitration module determines a propulsion torque request based on the axle torque request and the secured torque request. The actuation module controls at least one of air, spark, and fuel provided to a cylinder of an engine based on the propulsion torque request. | 06-16-2011 |
20110144888 | ENGINE CONTROL WITH VALVE DEACTIVATION MONITORING USING EXHAUST PRESSURE - A system or method for controlling a multiple cylinder internal combustion engine operable in a reduced displacement mode with at least one valve or cylinder selectively deactivated include controlling the engine in response to detecting opening of an exhaust valve after deactivation based measured or inferred exhaust pressure changes after deactivation. In one embodiment, controlling the engine includes reactivating one or more deactivated cylinders/valves, inhibiting subsequent deactivation, and/or storing a diagnostic code in a computer readable storage medium in response to detecting valve opening after deactivation. | 06-16-2011 |
20110144889 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE OPERATED WITH A GAS AS FUEL - A method for operating an internal combustion engine ( | 06-16-2011 |
20110144890 | METHOD AND CONTROL DEVICE FOR DETECTING THE DIRECTION OF ROTATION OF A DRIVE SHAFT OF AN INTERNAL COMBUSTION ENGINE FOR A MOTOR VEHICLE - In a method for determining the direction of rotation of a drive shaft ( | 06-16-2011 |
20110153180 | ELECTRONIC CONTROL UNIT FOR CONTROLLING ELECTRICALLY DRIVEN LOADS IN ENHANCED FAIL SAFE MANNER - A first judgment circuit and a second judgment circuit are adapted to set a judging signal high when a judgment data sent from a microprocessor indicates failure. The high level judging signal triggers a forced idle command connected to a motor driver, to be high level whereby the motor is forcibly suspended. Subsequently, when a reset command is accidentally transmitted by the microprocessor due to an unexpected fault, a first judging signal from the first judgment circuit is reset to low level. However, a second judging signal from the second judgment circuit remains high level. As a result, the forced idle command stays high level. | 06-23-2011 |
20110160981 | Method for Operating a Drive Unit and Drive Unit - The invention relates to a method for operating a drive unit, wherein the drive unit has an internal combustion engine, which is provided with at least one fuel pump, which is controlled and/or regulated by a pump control unit and which is intended for introducing fuel into a pressure accumulator; a metering system for introducing fuel, which has been metered by means of a lambda function unit, from the pressure accumulator into the internal combustion engine; and a pressure sensor for determining the pressure in the pressure accumulator; and wherein the output variables of the pump control unit and the lambda function unit are evaluated in order to determine a malfunction of the internal combustion engine. In this case, it is provided that additionally the pressure sensor is subjected to at least a defined test pressure for at least a short period of time and that the pressure that is measured with the pressure sensor is compared with the defined test pressure, in order to determine or rule out a malfunction of the pressure sensor. Furthermore, the invention relates to a drive unit. | 06-30-2011 |
20110160982 | ENGINE CONTROL TECHNIQUES TO ACCOUNT FOR FUEL EFFECTS - A technique for engine control to account for fuel effects including providing an internal combustion engine and a controller to regulate operation thereof, the engine being operable to combust a fuel to produce an exhaust gas; establishing a plurality of fuel property inputs; establishing a plurality of engine performance inputs; generating engine control information as a function of the fuel property inputs and the engine performance inputs; and accessing the engine control information with the controller to regulate at least one engine operating parameter. | 06-30-2011 |
20110160983 | METHOD FOR CORRECTING THE CYLINDER UNBALANCING IN AN INTERNAL COMBUSTION ENGINE - A method is provided for correcting the cylinder unbalancing in an internal combustion engine. The method includes, but is not limited to the steps of acquiring the crankshaft or engine speed signal while a fuel injector is energized for a determined period of time in which all other fuel injectors are de-energized, generating a square wave signal by scanning said markings with the detector, the signal having a predetermined period, performing a first period-summing step so as to obtain first segments of the periods, performing a digital anti-aliasing filtering of the first segments, performing a segment-summing step so as to obtain second, larger segments, performing a band-pass filtering step on predetermined harmonic components thus obtaining intermediate values, creating filtered correction values representative of an ideal crankshaft wheel speed signal, correcting the intermediate values using the filtered correction values thus obtaining final values, performing a proportional and integral control, component by component, based on the final values, summing ( | 06-30-2011 |
20110166767 | COMPENSATION FOR OXYGENATED FUELS IN A DIESEL ENGINE - A fuel compensation factor (FCF) is determined to account for the amount of oxygenated fuel blended in diesel fuel. In one embodiment, the FCF is based on an expected exhaust gas oxygen concentration compared to an actual exhaust gas oxygen concentration. The FCF is used to estimate an amount of oxygenated fuel in the blend. Such estimate can be used to adjust the exhaust temperature model, which is used at least in determining the temperature in aftertreatment devices, the fuel dilution model which affects oil change recommendations, and the diesel particulate filter loading model which affects regenerations. Biodiesels are more prone to waxing at lower temperatures. The estimated amount of biodiesel and the temperature in the injection system are used to prevent and/or delay starting when it is predicted that too much wax exists in the fuel system. | 07-07-2011 |
20110166768 | Control Device for Engine - A control device for an engine, capable of accurately estimating the quantity of exhaust heat from the engine and performing engine control which improves the exhaust quality and fuel consumption of the engine in various operating conditions thereof, by using the accurate extimated value of the quantity of exhaust heat. A control device for an engine is provided with an exhaust flow rate sensor for directly sensing the flow rate of exhaust gas discharged from the engine, an exhaust temperature estimating device for sensing or estimating the temperature of the exhaust gas discharged from the engine, and an exhaust heat quantity estimating device for estimating, based on an output of the exhaust flow rate sensor and an output of the exhaust temperature estimating device, the quantity of heat of the exhaust gas discharged from the engine. | 07-07-2011 |
20110166769 | Supplemental Vapor Fuel Injection System for Internal Combustion Engines - A supplemental vapor fuel injection system for internal combustion engines capable of utilizing numerous supplemental vapor type fuels such as propane, compressed natural gas (CNG), liquid natural gas (LNG), butane, ammonia, biogas, hydrogen, ammonia, and Hythane®. The system includes a vaporizer/pressure regulator that provides pressure regulated vapor fuel to two specially designed vapor fuel injectors and a controller unit capable of real-time control of the vapor fuel injectors. The injectors meter precise amounts of vapor fuel into a manifold that combines the vapor for delivery to a directional nozzle located in an airstream of the diesel engine. | 07-07-2011 |
20110166770 | DIESEL ENGINE FUEL SOUNDNESS CONTROL SYSTEM AND DIESEL ENGINE FUEL SOUNDNESS EVALUATION METHOD - A diesel engine fuel soundness control system includes: a density measuring instrument | 07-07-2011 |
20110172895 | Condition Evaluation System for Engine-Driven Traveling Vehicle - A fuel consumption amount evaluation system is disclosed. The system includes a rotational speed detecting section ( | 07-14-2011 |
20110172896 | CYLINDER INTAKE AIR AMOUNT CALCULATING APPARATUS FOR INTERNAL COMBUSTION ENGINE - A cylinder intake air amount calculating apparatus for an internal combustion engine is provided. The cylinder intake air amount calculating apparatus calculates a cylinder intake air amount which is an amount of fresh air sucked in a cylinder of the engine using an intake air pipe model equation which is obtained by modeling an intake pipe of the engine. An intake air flow rate which is a flow rate of fresh air passing through the intake pipe of the engine is obtained. The cylinder intake air amount is calculated by applying the intake air flow rate and a preceding value of the cylinder intake air amount to the intake pipe model equation. A predicted intake air flow rate which is a predicted value of the intake air flow rate is calculated. A predicted cylinder intake air amount which is a predicted value of the cylinder intake air amount is calculated by applying the predicted intake air flow rate and the cylinder intake air amount to the intake pipe model equation. | 07-14-2011 |
20110172897 | PLANT CONTROL APPARATUS - A plant control apparatus includes a plant model and a control input determining device. The plant model estimates a control variable of a plant based on an input including a control parameter to adjust a first control variable of the plant. The control input determining device is configured to correct a temporary value of the control parameter so that a first control variable model value satisfies a predetermined constraint. The control input determining device is configured to determine a control input for the plant based on the temporary value of the control parameter that has been corrected. The first control variable model value is defined as an estimated value of the first control variable calculated by the plant model when the temporary value of the control parameter is input to the plant model. | 07-14-2011 |
20110172898 | INTERNAL COMBUSTION ENGINE SYSTEM CONTROL DEVICE - A device with models constructed based on thermodynamics laws and fluid dynamics laws including the energy conservation law, momentum conservation law and mass conservation law. Compressor outflow flow rate calculation section calculates the flow rate of air that flows out of a compressor based on a relationship between an in-cylinder intake air flow rate during steady-state operation in an internal combustion engine system and supercharging pressure, which is pressure of air compressed by the compressor, and a value of the in-cylinder intake air flow rate calculated by in-cylinder intake air flow rate calculation section. | 07-14-2011 |
20110178693 | METHOD AND APPARATUS TO MONITOR A MASS AIRFLOW METERING DEVICE IN AN INTERNAL COMBUSTION ENGINE - A method for operating an internal combustion engine configured to operate in a controlled auto-ignition combustion mode and equipped with a mass airflow metering device includes monitoring an engine combustion state, monitoring states of engine operating parameters, calculating a nominal intake air mass flowrate corresponding to the states of the engine operating parameters, estimating an intake air mass flowrate corresponding to the nominal intake air mass flowrate and the engine combustion state, measuring intake air mass flowrate with the mass airflow metering device, comparing the estimated and measured intake air mass flowrates, and detecting a fault related to the mass airflow metering device when a difference between the estimated and measured intake air mass flowrates exceeds a predetermined threshold. | 07-21-2011 |
20110178694 | CONTROL DEVICE FOR VARIABLE VALVE ACTUATION SYSTEM - A control device for a variable valve actuation system includes: an engine valve; a variable valve actuation mechanism that variably controls a valve timing of the engine valve and at least one of a valve operating angle and valve lift of the engine valve; a variable setting unit that variably sets a control range, in which at least one of the valve operating angle and the valve lift is controlled by the variable valve actuation mechanism, on the basis of the valve timing; a detecting unit that detects a plurality of valve timings of the engine valve in different modes in such a manner that the control range is changed; and a control range setting unit that variably sets the control range using one of the plurality of detected valve timings. | 07-21-2011 |
20110178695 | CONTROL DEVICE OF AUTOMATIC ENGINE STOP AND START - In a control device, an engine self-restart means tries the engine restart when an engine restart request is issued while the engine rotation speed is within a first rotation speed range. A pre-gear synchronizing control means executes gear rotation speed synchronization between pinion and ring gears, and then retries the engine restart when the engine restart request is issued while the engine rotation-speed is within a second rotation speed range. A pre-gear meshing control means executes gear-meshing between the pinion and ring gears and then retries the engine restart when the engine restart request is issued while the engine rotation speed is within a third rotation speed range. On detecting the engine-restart failure of the engine self-restart control, the control device prohibits the execution of pre-gear synchronizing control until a predetermined time counted form the failure detection time is elapsed, and executes the pre-gear meshing control after the predetermined time period is elapsed. | 07-21-2011 |
20110184628 | FUEL CORRECTION SYSTEMS AND METHODS - A fuel control system for a vehicle comprises a fuel delivery module, a torque ratio determination module, and a correction factor module. The fuel delivery module supplies first and second amounts of diesel fuel to a cylinder of an engine during first and second combustion cycles for the cylinder, respectively. The second combustion cycle occurs after the first combustion cycle. The torque ratio determination module determines a torque ratio based on torque output by the engine during the first combustion cycle and a torque requested for the first combustion cycle. The correction factor module determines a fuel correction factor based on the torque ratio and adjusts the second amount based on the fuel correction factor. | 07-28-2011 |
20110184629 | FUEL-BASED INJECTION CONTROL - Systems and methods of operating an engine with a varying fuel composition. In one example, a split injection is performed during engine cranking with at least some fuel injected in the intake stroke and some fuel injected in the compression stroke. Further, a split ratio of the injection is adjusted based on the alcohol content of the injected fuel. | 07-28-2011 |
20110191006 | ALCOHOL CONCENTRATION ESTIMATION AND DETECTION APPARATUS FOR AN ENGINE - In an alcohol concentration estimation apparatus for an engine, a first crank angular speed (ω | 08-04-2011 |
20110191007 | Method and System for Pre-Ignition Control - Methods and systems are provided for addressing cylinder-to-cylinder imbalances in the incidence of pre-ignition and/or knock. Engine cylinders are fueled based on each cylinder's pre-ignition count to balance the incidence of pre-ignition in each cylinder. The fueling is adjusted to maintain engine exhaust at stoichiometry. | 08-04-2011 |
20110191008 | SUPPLEMENTARY FUEL SYSTEM FOR DELIVERY OF HYDROGEN GAS TO AN ENGINE - A method and system of a supplementary fuel system for delivering hydrogen to an engine is described. | 08-04-2011 |
20110191009 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - To balance between air-fuel ratio controllability and torque response performance in a control device for an internal combustion engine performing a throttle delay control. An air quantity requirement is calculated based on torque required of an internal combustion engine. A throttle opening for achieving the air quantity requirement is calculated by using an inverse model of an intake system model that models response of a cylinder intake air quantity relative to an operation of a throttle. A throttle opening delayed by a predetermined delay time Td is outputted as an operation amount to the throttle. When, however, there is no allowance for introducing the delay time Td between the response time of the cylinder intake air quantity to a throttle operation to be achieved at a current engine speed and a torque response time requirement, the delay processing of the throttle opening is restricted by, for example, making the delay time Td zero or shortening the delay time Td. | 08-04-2011 |
20110196594 | CONTROLLER FOR FUEL INJECTION SYSTEM - A controller controls a control input of a fuel pump in such a manner that a fuel pressure in a delivery pipe agrees with a target fuel pressure. A correction input is computed for compensating a fuel pressure reduction except due to a fuel injection through the fuel injector. The control input of the fuel pump is controlled so that the fuel pump discharges the fuel according to the correction input. | 08-11-2011 |
20110202254 | ENGINE AUTOMATIC-STOP/RESTART SYSTEM - In an engine automatic-stop/restart system according to the present invention, in the case where an engine self-restoration determination unit determines that an engine can autonomously be restored, fuel supply by a fuel injection control unit is resumed so that the engine is autonomously restored; and in the case where the engine self-restoration determination unit determines that the engine cannot autonomously be restored, the fuel supply by the fuel injection control unit is resumed, and based on an engine rotation speed detected by the engine rotation speed detection unit, a pinion gear rotation speed detected by the pinion gear rotation speed detection unit, and the result of determination by the engine self-restoration determination unit, there is performed the energization or de-energization of the pinion gear driving unit and the starter motor. | 08-18-2011 |
20110202255 | METHOD FOR CORRECTING INJECTION QUANTITIES AND/OR TIMES OF A FUEL INJECTOR - In a method for individually correcting injection quantities and/or times (mf | 08-18-2011 |
20110208407 | HIGH-ACCURACY IMEP COMPUTATIONAL TECHNIQUE USING A LOW-RESOLUTION ENCODER AND AN INDIRECT INTEGRATION PROCESS - A method for computing indicated mean effective pressure (IMEP) in an internal combustion engine using sparse input data. The method uses an indirect integration approach, and requires significantly lower resolution crankshaft position and cylinder pressure input data than existing IMEP computation methods, while providing calculated IMEP output results which are very accurate in comparison to values computed by existing methods. By using sparse input data, the indirect integration method offers cost reduction opportunities for a manufacturer of vehicles, engines, and/or electronic control units, through the use of lower cost sensors and the consumption of less computing resources for data processing and storage. | 08-25-2011 |
20110213543 | INTEGRATION OF ELECTRONICS FUEL REGULATOR IN A SINGLE UNIT FOR 4 CYCLE ENGINES - A fuel injection system for a hydro carbon engine is provided with a simplified electronic governor system for controlling the maximum speed of the engine. The governor system is operatively associated with an electronic control unit (ECU) for operating the engine. A pulse width modulated fuel valve is provided with a pressure intensifier device enabling the fuel system to use low pressure signals in providing a fuel supply to the engine. The fuel system further is provided with a throttle body having the ECU, the fuel valve and the governor system integrated with on another in a single package for mounting on the engine. | 09-01-2011 |
20110213544 | FUEL INJECTION CONTROLLER FOR INTERNAL COMBUSTION ENGINE - When an engine is driven in a high engine-load condition, a split fuel injection is performed in which a required fuel injection quantity is injected by multiple fuel injections. While the split fuel injection is performed, an actual air-fuel ratio of each cylinder is individually computed based on the output of the air-fuel ratio sensor. Based on the actual air-fuel ratio and a reference air-fuel ratio, an injection-quantity variation of each cylinder is computed. A correction value is computed and learned in order to correct the injection-quantity variation of each cylinder. | 09-01-2011 |
20110213545 | MODIFICATION OF ENGINE CONTROL SIGNAL TIMING BY EMULATION OF ENGINE POSITION SENSORS - The timing of a controlled event is advanced or retarded in an IC engine by emulating the engine speed and position signal pattern prior to transmission of that signal pattern to an output such as a fuel injector. In a multi-controller engine in which a second controller is controlled at least in part by signals delivered by first controller, the signal preferably is emulated in the first controller prior to transmission to the second engine controller in order to allow the shifting of a timing of a controlled event without direct data transfer from the second controller to the first controller. The technique is particularly well-suited for controlling diesel fuel injection in a dual fuel or other multi-fuel engine. In this case, the first controller must be a dual fuel controller and the second controller may be a diesel controller. | 09-01-2011 |
20110213546 | METHOD AND DEVICE FOR OPERATING AN INJECTION SYSTEM FOR AN INTERNAL COMBUSTION ENGINE - A method for operating an injection system has the following steps: determining, based on a pilot control characteristic, a prefeed value depending on an internal combustion engine operating parameter; initializing a correction value for the prefeed pump by a safety value predetermined for compensating deviations from a predetermined delivery behavior of the prefeed pump, which deviations lie within a predetermined tolerance range, for guaranteeing a sufficient pump delivery rate; controlling the prefeed pump depending on the prefeed and the correction values; adapting the correction value effecting the delivery behavior of the prefeed pump depending on a variable of the system the value or value curve of which indicates that a desired pressure can be generated in the fuel accumulator, namely in the sense of reducing the delivery output of the prefeed pump, as long as the value indicates that the desired pressure can be generated in the fuel accumulator. | 09-01-2011 |
20110218726 | UEGO SENSOR AIR-FUEL RATIO DETERMINATION SYSTEM AND METHOD - A method of determining an air-fuel ratio of an internal combustion engine in real-time includes: calibrating sensitivity of a universal exhaust gas oxygen sensor to a plurality of gases; inputting to a universal exhaust gas oxygen sensor controller a molecular composition of Hydrogen, Carbon, Oxygen, and Nitrogen which comprise a combustion fuel in use in the internal combustion engine; calculating with the universal exhaust gas oxygen sensor controller an air-to-fuel ratio by performing a chemical balance equation calculation based on the universal exhaust gas oxygen sensor sensitivity calibration and the input combustion fuel molecular composition; and transmitting the calculated air-to-fuel ratio to an engine control unit in real-time. | 09-08-2011 |
20110218727 | METHOD AND ASSOCIATED DEVICE FOR SENSING THE AIR/FUEL RATIO OF AN INTERNAL COMBUSTION ENGINE - A method of sensing the air/fuel ratio in a combustion chamber of an internal combustion engine that may be easily implemented by a respective low-cost device includes a pressure sensor and a learning machine that generates a sensing signal representing the air/fuel ratio by processing the waveform of the pressure in at least one cylinder of the engine. In practice, the learning machine extracts characteristic parameters of the waveform of the pressure and as a function of a certain number of them generates the sensing signal. | 09-08-2011 |
20110224886 | ON-BOARD FUEL PROPERTY DETECTION USING PATTERN RECOGNITION AND POWER SPECTRAL ANALYSIS OF CYLINDER PRESSURE SIGNAL - Combustion pressure in a diesel combustion chamber is monitored to determine a combustion parameter as a function of the monitored pressure. A cetane number of the fuel combusted is determined as a function of a predetermined correlation between the combustion parameter and the cetane number. | 09-15-2011 |
20110224887 | THROTTLE VALVE CONTROLLER FOR AN INTERNAL COMBUSTION ENGINE - A throttle valve controller is provided for an internal combustion engine, an electronic engine controller, via which an overrun cutoff of the fuel supply of the engine, is controllable, a throttle valve, which is displaceable using at least one electrical positioning motor, and a gas pedal having at least one potentiometer for recognizing the gas pedal position are provided. The throttle valve controller, if an overrun cutoff is activated and the position of the gas pedal is unchanged or reducing, brings the throttle valve using the positioning motor into a position in which the throttle valve throttles the gas stream flowing through it less than would be the case if the overrun cutoff were not activated in the respective gas pedal position. | 09-15-2011 |
20110224888 | METHOD TO DIAGNOSE A FAULT IN A FUEL INJECTION SYSTEM OF AN INTERNAL COMBUSTION ENGINE - A method is provided to diagnose a fault in a fuel injection system of an internal combustion engine. The method includes, but is not limited to commanding an injection pulse for injecting a test quantity of fuel into an engine cylinder, determining the torque released to an engine crankshaft due to the injection pulse, calculating the difference between this released torque and an expected value for the torque, and of detecting a fault in the fuel injection system if the difference exceeds a threshold. | 09-15-2011 |
20110231079 | METHOD AND DEVICE FOR OPERATING AN INTERNAL COMBUSTION ENGINE - According to a current operating state (BZ) of an internal combustion engine and/or a specified particle number emission limit (PE), a minimum hydrocarbon concentration (HCMK) of a combustion chamber exhaust gas of the internal combustion engine that is required to comply with the specified particle number emission limit is determined. An operation (B) of the internal combustion engine is specified to achieve a hydrocarbon concentration (HCK) of the combustion chamber exhaust gas that is at least as large as the determined minimum hydrocarbon concentration (HCMK). | 09-22-2011 |
20110231080 | CONTROL AND REGULATION METHOD FOR AN INTERNAL COMBUSTION ENGINE HAVING A COMMON RAIL SYSTEM - The invention relates to a control and regulation method for an internal combustion engine ( | 09-22-2011 |
20110238282 | FUEL SUPPLY CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE AND FUEL SUPPLY CONTROL METHOD THEREOF - The present invention relates to a fuel supply control apparatus and a fuel supply control method for controlling an electric fuel pump, in an internal combustion engine provided with the electric fuel pump for pumping fuel to a fuel injection valve and a pressure regulator for regulating fuel pressure at set pressure. When a learning condition of a drive voltage for the electric fuel pump is established, the drive voltage is temporarily reduced and a change amount ΔAF of an air-fuel ratio at the time is detected. Then, if the change amount ΔAF is within a first threshold ΔAF | 09-29-2011 |
20110246046 | STOP-START CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A stop/start control device ( | 10-06-2011 |
20110246047 | METHOD OF CONTROLLING A VEHICLE ENGINE SYSTEM - A method of controlling a vehicle engine system is described. The method involves sensing a pressure in the engine; generating a signal indicative of the sensed pressure; encrypting the signal to generate an encrypted data message containing information indicative of the sensed pressure; transmitting the encrypted data message to an engine control means; decrypting the encrypted data message to obtain the information indicative of the sensed pressure; and controlling the vehicle engine system in dependence upon the information contained in the encrypted data message. A pressure sensor for use in the method, and a suitably programmed electronic control unit are also described. | 10-06-2011 |
20110251776 | FUEL ACCUMULATOR AND FUEL SYSTEM USING THE SAME - A fuel accumulator is provided to assist restarting a direct injection engine fuel system. The fuel accumulator includes a central guide post with a fuel passage. A cup shaped plunger with a closed end is slideably disposed on the central guide post. A seal means is disposed between the plunger and the central guide post to define a substantially sealed fuel chamber. A biasing means is provided to urge the plunger onto the central guide post. A fuel admission valve selectively prevents and permits fuel from entering and exiting the fuel accumulator. When a fuel system stop is commanded, pressurized fuel is admitted into the fuel chamber, thereby compressing the biasing means which maintains a restart pressure. When a fuel system start is commanded, pressurized fuel is expelled from the fuel accumulator. | 10-13-2011 |
20110251777 | System and Method for Controlling an Injection Time of a Fuel Injector Based on Closing Electrical Decay - A system and method for controlling an injection time of a fuel injector. The system includes a drive circuit configured to output a drive signal having a pulse width, wherein the injection time is influenced by the pulse width and a closing electrical decay of the fuel injector. A controller is configured to determine the closing electrical decay of the fuel injector and adapt the pulse width based on the closing electrical decay to control the injection time. The closing electrical decay includes a closing response. The controller determines the closing response based on an injector signal, such as a coil voltage of the fuel injector. By determining the closing response, the pulse width can be adjusted to compensate for fuel injector part-to-part variability, fuel injector wear, variations in fuel pressure received by the fuel injector, dirt in the fuel injector, and the like. | 10-13-2011 |
20110251778 | FUEL INJECTION CONTROL APPARATUS - A fuel injection control apparatus, which is applied to a cylinder-injection internal combustion engine directly injecting fuel into a cylinder from a fuel injection valve, includes an injection control unit which issues a command to perform injection control for the fuel injection valve by using an injection command signal, a drive circuit which drives the fuel injection valve based on the injection command signal outputted from the injection control unit, and a temperature information obtaining unit which obtains temperature information associated with temperature in the fuel injection control apparatus. The injection control unit issues a command to perform injection control for reducing heat generation of the drive circuit by using the injection command signal based on the temperature information obtained by the temperature information obtaining unit. | 10-13-2011 |
20110251779 | FUEL INJECTION CONTROL APPARATUS - A fuel injection control apparatus of the invention includes: a temperature acquisition portion that estimates the present temperature of a catalyst and the convergence temperature of the catalyst; an increase value calculation portion that calculates a base OT increase value that is an increase value for the fuel injection amount that a fuel injection valve provided in an internal combustion engine needs to inject, on the basis of the present temperature and the convergence temperature of the catalyst estimated by the temperature acquisition portion; a correction portion that calculates an OT increase correction-reflected value by correcting the base OT increase value on the basis of the present temperature and the convergence temperature if the present temperature is lower than the convergence temperature; and an increase value determination portion that selects one of the base OT increase value and the OT increase correction-reflected value as the OT increase value for the fuel injection amount that the fuel injection valve needs to inject, on the basis of the base OT increase value and the OT increase correction-reflected value. | 10-13-2011 |
20110257867 | METHOD AND SYSTEM FOR REDUCING TURBO LAG IN AN ENGINE - A method and control module for controlling an engine includes a requested torque module that generates a requested torque and a turbo boost level module that determines a desired boost level based on the driver requested torque. The control module further includes a pulse determination module that determines a primary fuel injection pulsewidth and a secondary fuel injection pulsewidth based on the driver requested torque and the desired boost level and controls a first injection into the cylinder with the primary fuel injection pulsewidth and a second injection into the cylinder with the secondary fuel injection pulsewidth. | 10-20-2011 |
20110257868 | PRESSURE CONTROL IN THE COMMON RAIL SYSTEM OF A COMBUSTION ENGINE - The apparatus and method according to the invention comprise a controller ( | 10-20-2011 |
20110257869 | FUEL MANAGEMENT SYSTEM AND METHOD - A system includes an engine and a controller. The engine is capable of multiple operating modes, and each mode has a relatively different fuel ratio such that as the engine is changed from a first operating mode having a first ratio of a first fuel to a second fuel to a second operating mode having a second ratio of the first fuel to the second fuel. The controller is operable to change the engine from one operating mode to another operating mode. | 10-20-2011 |
20110264354 | SYSTEM AND METHOD FOR DETECTING A STUCK VEHICLE ACCELERATOR AND REMEDIAL CONTROL - A control system for a vehicle includes an error detection module and a remedial control module. The error detection module detects whether an accelerator of the vehicle is stuck is based on vehicle speed, a position of the accelerator, and one of a pressure applied to a brake of the vehicle and a status of a parking brake of the vehicle. The remedial control module, when the accelerator is stuck, at least one of resets the position of the accelerator and decreases torque output of a powertrain system. | 10-27-2011 |
20110264355 | CONTROL SYSTEM OF INTERNAL COMBUSTION ENGINE - An internal combustion engine can use ammonia and a non-ammonia fuel which is easier to burn than ammonia as fuel. The non-ammonia fuel is directly injected into a combustion chamber by a non-ammonia fuel injector, and the injected non-ammonia fuel is ignited, whereby combustion of the air-fuel mixture in the combustion chamber is commenced. In the control system of the internal combustion engine, the injection timing of the non-ammonia fuel is advanced at a time when a ratio of ammonia in all fuel fed to the internal combustion engine is high in comparison with the time when the ratio is low. Therefore, a control system of an internal combustion engine capable of using ammonia and a non-ammonia fuel (gasoline, light oil, hydrogen, etc.) which is easier to burn than ammonia, which suitably feeds fuel and controls combustion in order to suitably burn an air-fuel mixture in a combustion chamber is provided. | 10-27-2011 |
20110270509 | FUEL CUTOFF TRANSITION CONTROL SYSTEMS AND METHODS - An engine control system includes a fuel cutoff (FCO) module, a fuel control module, and a spark control module. The FCO module, when a FCO event is disabled, determines a feed-forward (FF) number of cylinders to offset a delay period associated with supplying fuel to the cylinders of an engine and selectively maintains a FCO torque request at a predetermined torque. The fuel control module commands fuel be supplied to the FF number of cylinders of the engine when the FCO event is disabled. The spark control module maintains a spark timing of the FF number of cylinders at a fully retarded spark timing based on the FCO torque request. | 11-03-2011 |
20110270510 | CONTROLLING CYLINDER MIXTURE AND TURBOCHARGER OPERATION - A method for controlling differences in exhaust gas residual amount for a two cylinder bank engine having at least one turbocharger is presented. In one example, the description includes a method for adjusting valve timing to reduce cylinder exhaust gas residual variation. | 11-03-2011 |
20110276250 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE INCLUDING VARIABLE VALVE OPERATING MECHANISM - The present invention has its object to provide a control apparatus for an internal combustion engine including a variable valve operating mechanism which is capable of accurately and effectively identifying an abnormality-occurring cylinder during operation while preventing the deterioration of a catalyst. A fuel injection valve which is capable of injecting fuel for each cylinder is provided. Variable valve operating mechanisms which are capable of halting the operation of the intake and exhaust valves in the closed state for each cylinder are provided. An abnormality evaluation index value is acquired during the operation of the internal combustion engine and, based on the abnormality evaluation index value, an abnormality which has occurred in at least one cylinder in the internal combustion engine is detected. When the abnormality is detected, a cylinder halting to perform the halting of fuel supply and the halting of the valve operation in the closed state is executed with a first partial cylinder made up of at least two cylinders as the target. After the cylinder halting, with the cylinder to be halted being changed, a cylinder halting is executed with a second partial cylinder made up of at least one cylinder as the target. Based on the change in the abnormality evaluation index value associated with the changing of the cylinder to be halted, the abnormality-occurring cylinder is identified. | 11-10-2011 |
20110276251 | TRANSIENT COMBUSTION NOISE CONTROL IN A HYBRID POWERTRAIN INCLUDING AN HCCI ENGINE - A method for controlling a direct injection internal combustion engine and a torque machine configured to transfer torque to a driveline responsive to an operator torque request includes operating the direct injection internal combustion engine to transfer torque to the driveline, monitoring the operator torque request, determining a time constant associated with the operator torque request, detecting a fast transient condition associated with the operator torque request, providing a restricted engine torque command as a function of the operator torque request and the time constant, and during fast transient conditions controlling engine operation to achieve the restricted engine torque command, and operating the torque machine responsive to a motor torque command, the motor torque command corresponding to a difference between the operator torque request and the restricted engine torque command. | 11-10-2011 |
20110276252 | Heated Fuel Injector System - A heated fuel injector system and controller that includes a temperature sensing means to provide closed-loop control of a heating element heating fuel dispensed by a heated fuel injector. Closed-loop control provides more accurate temperature control of the heating element so that fuel heating is provided as quickly as possible while also protecting the fuel from being boiled and protecting the heated fuel injector from being damaged by excessive temperature. By monitoring how the signal from the temperature sensing means varies over time, fault conditions such as a lack of fuel flow, and fuel ethanol percentage may be detected. | 11-10-2011 |
20110276253 | BI-FUEL CONTROL SYSTEMS FOR AUTOMOTIVE VEHICLES AND RELATED METHODS - A bi-fuel control system can include an electronic control module and a control unit that are in communication with each other. The system can include a first set of fuel injectors that are configured to deliver a primary fuel to an engine and can include a second set of fuel injectors that are configured to deliver a secondary fuel to the engine. The bi-fuel control system can operate in either a primary operational state in which the first set of injectors is used or a secondary operational state in which the second set of injectors is used. In either operational state, the electronic control module can control the respective set of injectors independently from the control unit. | 11-10-2011 |
20110276254 | ATMOSPHERIC PRESSURE ESTIMATING APPARATUS - An atmospheric pressure estimating apparatus which estimates an atmospheric pressure applied to a calculation of control parameters of an internal combustion engine, is provided. An estimated intake air control valve passing air flow rate is calculated based on the estimated atmospheric pressure, the detected intake pressure, and the detected intake air control valve opening. The estimated atmospheric pressure is updated so that the estimated intake air control valve passing air flow rate coincides with the detected intake air control valve passing air flow rate. The estimated intake air control valve passing air flow rate is calculated using the updated estimated atmospheric pressure. The update of the estimated atmospheric pressure and the calculation of the estimated control valve passing air flow rate are sequentially performed. Consequently, the estimated control valve passing air flow rate follows the intake air flow rate, and the estimated atmospheric pressure follows the atmospheric pressure. | 11-10-2011 |
20110288745 | DUAL FUEL ENGINE CONTROL UNIT - A multi-mode engine system comprising an engine adapted to operate in a plurality of different modes including a first mode in which the engine is fuelled substantially entirely by a first fuel, and a second mode in which the engine is fuelled substantially entirely by a second fuel, or by a mixture of the first and second fuels, the engine comprising: a first engine control unit (ECU) for controlling the flow of the first fuel into the engine when the engine is operating in the first mode; a plurality of first sensors operatively connected to the first ECU, each of which first sensors is adapted to sense a first variable, and to emit a first input signal dependent on a value of the sensed first variable; and a second ECU operatively connected to the first ECU; wherein the first ECU comprises: a signal receiver for receiving the first input signals, and an output for emitting a first output signal dependent on the first input signals, which first output signal determines the amount of first fuel supplied to the engine; and the second ECU being adapted to modify the first output signal when the engine is running in the second mode to produce a first modified signal and a second calculated signal; the first modified signal determining the amount of first fuel supplied to the engine when the engine is operating in the second mode, and the second calculated signal determining the amount of second fuel supplied to the engine when the engine is operating in the second mode. | 11-24-2011 |
20110288746 | CONTROL SYSTEM AND METHOD FOR IMPROVING COLD STARTABILITY OF SPARK IGNITION DIRECT INJECTION (SIDI) ENGINES - A control system includes an engine enable module and a fuel control module. The engine enable module determines whether predetermined operating conditions of a spark ignition direct injection (SIDI) engine are satisfied and enables an engine prime mode when the predetermined operating conditions are satisfied. The fuel control module controls a fuel injector to deliver a prime pulse to a cylinder of the SIDI engine when the engine prime mode is enabled. The fuel injector delivers the prime pulse by opening for a pulse width to inject fuel directly into the cylinder when the SIDI engine is stopped. | 11-24-2011 |
20110288747 | METHOD AND APPARATUS FOR OPERATING AN INTERNAL COMBUSTION ENGINE IN A HOMOGENEOUS-CHARGE COMPRESSION-IGNITION COMBUSTION MODE - A method for operating an internal combustion engine includes determining an actual combustion heat release during ongoing engine operation, calculating an expected combustion heat release corresponding to engine operation associated with the actual combustion heat release during ongoing engine operation, determining a difference between the actual combustion heat release and the expected combustion heat release, and operating the internal combustion engine in a homogeneous-charge compression-ignition combustion mode to achieve a preferred combustion phasing during each combustion cycle in response to the difference between the actual combustion heat release and the expected combustion heat release. | 11-24-2011 |
20110288748 | METHOD FOR OPERATING A FUEL INJECTION SYSTEM OF AN INTERNAL COMBUSTION ENGINE - In a fuel injection system of an internal combustion engine fuel is delivered into a fuel rail by a high-pressure pump. The quantity of the delivered fuel is influenced by a quantity control valve operated by an electromagnetic operating device. At least one parameter of a braking pulse of the electromagnetic actuating device depends on an efficiency of the electromagnetic actuating device and/or on a supply voltage of a voltage source and/or on a temperature, in particular of a component of the fuel injection system or of the internal combustion engine. | 11-24-2011 |
20110295487 | SYSTEM AND METHOD FOR IMPROVED TRANSITIONS BETWEEN ENGINE COMBUSTION MODES - A control system for a homogeneous charge compression ignition (HCCI) engine includes a timing adjustment module and a combustion control module. The timing adjustment module, per combustion event, advances timings of N fuel injections and retards timings of M fuel injections and spark during a transition from HCCI combustion to mixed-mode combustion. The combustion control module subsequently retards the timings of the N fuel injections and advances the timings of the M fuel injections and the spark to desired timings, respectively, wherein the N fuel injections and the M fuel injections occur sequentially during each combustion event of the HCCI engine, and wherein N and M are integers greater than or equal to zero. | 12-01-2011 |
20110295488 | CONTROL SYSTEM AND METHOD FOR LOW QUANTITY FUEL INJECTION - A control system for an engine includes a parameter determination module and a period determination module. The parameter determination module determines a first fuel injection parameter based on a rate of change of a quantity of fuel injected during a period, and determines a second fuel injection parameter based on an initial quantity of fuel injected during the period. The period determination module determines a desired fuel injection period based on a desired fuel injection quantity, the first and second fuel injection parameters, and at least one of mass air flow (MAF) rate, intake air temperature (IAT), fuel injector pressure (FIP), engine coolant temperature (ECT), and exhaust gas air/fuel (A/F) ratio. | 12-01-2011 |
20110295489 | SELECTIVE CYLINDER DISABLEMENT CONTROL SYSTEMS AND METHODS - An engine control system for an auto-stop/start vehicle includes a mode control module and an actuator control module. The mode control module selectively initiates an engine startup event when an engine startup command is generated. The actuator control module cranks an engine during the engine startup event, provides fuel to a first cylinder of the engine while the engine is being cranked, and selectively disables fuel to a second cylinder of the engine while the engine is being cranked. The second cylinder is after the first cylinder in a firing order. | 12-01-2011 |
20110295490 | FUEL SUPPLY APPARATUS FOR INTERNAL COMBUSTION ENGINE - A fuel supply apparatus for an internal combustion engine having a plurality of cylinders, which supplies fuel through fuel injection valves provided corresponding to the plurality of cylinders. An amount of fuel supplied to the engine is controlled by changing a fuel injection period of said fuel injection valve, and performing a fuel injection with a plurality of injection modes including a reference injection mode. A fuel injection amount parameter for controlling a valve opening period of the fuel injection valve in the reference injection mode, is calculated according to an operating condition of said engine. When the injection mode is determined to be another injection mode which differs from the reference injection mode, the fuel injection amount parameter is corrected so as to compensate shortage or oversupply of the fuel injection amount according to a correction parameter indicative of a time period which affects a pressure change of the fuel supplied to the fuel injection valve caused by employing the other injection mode. | 12-01-2011 |
20110295491 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE, CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE AND NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM - A control apparatus for an internal-combustion engine includes a diagnosis device. The diagnosis device includes a determination section and an exhaust flow rate calculator configured to calculate an exhaust flow rate that reflects a volume flow amount of exhaust gas. A filter is configured to filter a signal representing an air-fuel ratio so that a 0.5th-order frequency component of engine speed is extracted from the signal. An integrator is configured to accumulate a filtered signal for a predetermined period of time to compute an integration value. A corrector is configured to correct the integration value to compute a corrected integration value each time the integration value is computed by the integrator. The determination section is configured to determine that cylinder-to-cylinder air-fuel ratio imbalance occurs in cylinders if the corrected integration value is greater than a predetermined threshold value after the predetermined period of time has elapsed. | 12-01-2011 |
20110295492 | Internal Combustion Engine Controller - At the time of drop of an injector current of an internal combustion engine controller, the drop is performed quickly while heat generation of a drive circuit is suppressed, and valve closing response speed of the injector is enhanced. The internal combustion engine controller includes a drive circuit which drives an injector current, and a boost circuit which boosts a battery voltage, and includes a peak current path for guiding a boost voltage of the boost circuit to an upstream side of the injector via a boost side switching element and a boost side protection diode, a holding current path for guiding the battery voltage to the upstream side of the injector via a battery side switching element and a battery side protection diode, a ground current path which is connected to a power supply ground from a downstream side of the injector via a downstream side switching element, and a regenerating circuit which allows the boost circuit to regenerate electric energy of the injector from the downstream side of the injector via a current regenerating diode, wherein the regenerating path is provided with a voltage regulating section in series with the current regenerating diode, and the drive circuit controls drive of the switching element. | 12-01-2011 |
20110295493 | METHOD FOR OPERATING A FUEL INJECTION SYSTEM OF AN INTERNAL COMBUSTION ENGINE - A fuel injection system of an internal combustion engine delivers fuel into a fuel rail via a high-pressure pump. The quantity of the delivered fuel is influenced by a quantity control valve operated by an electromagnetic operating device. A trigger signal supplied to the electromagnetic operating device is defined by at least two parameters, and a) in an adaptation method with the second parameter defined, at least one first parameter of the trigger signal supplied to the electromagnetic operating device is varied successively up to a final value at which a closing or opening of the quantity control valve is at least indirectly no longer or just barely detected, b) the first parameter is subsequently defined at least temporarily based on the final value, and c) the temporarily defined first parameter is adapted based on at least one prevailing operating variable of the fuel injection system or the second parameter is adapted based on at least one prevailing operating variable of the fuel injection system and of the temporarily defined first parameter. | 12-01-2011 |
20110301826 | BI-FUEL ENGINE WITH VARIABLE AIR FUEL RATIO - A conventional gasoline engine is retrofitted to operate as a bi-fuel engine calibrated to burn Hydrogen gas as a primary fuel and gasoline as a secondary fuel at various acceptable air fuel ratios while avoiding forbidden air fuel ratios. The engine is preferably operated to burn Hydrogen fuel in a charged mode and in a lean mode at certain acceptable air fuel ratios where relatively very little NO | 12-08-2011 |
20110307161 | METHOD AND DEVICE FOR OPERATING A FUEL INJECTION SYSTEM - A method is described for operating a fuel injection system, in particular of an internal combustion engine, in which fuel under pressure is made available in a pressure reservoir and a fuel pressure prevailing in the pressure reservoir is ascertainable with the aid of a pressure sensor. Fuel is removed from the pressure reservoir over a predefinable pressure reduction time period, measured pressure values are ascertained (determined) with the aid of the pressure sensor at least two different points in time during the pressure reduction period, and an actual fuel pressure at the beginning of the pressure reduction period is inferred from the measured pressure values ascertained (determined) during the pressure reduction period. | 12-15-2011 |
20110313637 | COMBUSTION APPARATUS AND METHOD FOR COMBUSTION CONTROL - A combustion apparatus (water heater) includes a combustion means (burner) combusting fuel, at least two flame detecting means (flame rods) detecting whether there is a flame or not in the combustion means, a determination unit (control device) determining whether or not to be a misfire based on detected results of the flame detecting means, and a control unit (control device) stopping supply of the fuel to the combustion means in response to a determined result of the determination unit. | 12-22-2011 |
20110313638 | METHOD AND SYSTEM FOR DELIVERING ENRICHMENT TO AN ENGINE - The present invention includes an automobile including an enrichment delivery system. The enrichment delivery system includes an engine, a catalytic converter, multiple sensors, a memory, and a control unit. The engine includes an enrichment delivery unit, which delivers base fuel and enrichment to the engine. The engine generates an output which can be received by the catalytic converter. Reactions occur within the catalytic converter, and are outputted by the catalytic converter. The sensors detect an air-fuel ratio from the output of the engine, and the output of a catalytic converter. The sensors detect temperature data for the catalytic converter. The memory stores an enrichment curve indicating that an amount of enrichment supplied to the engine should be gradually increased based on the enrichment curve until a target enrichment amount is reached, or a predetermined target enrichment time is reached. | 12-22-2011 |
20110313639 | SERVICE BAY HIGH PRESSURE COMMON RAIL INJECTOR PERFORMANCE TEST - A method for testing a fuel injector including providing an engine with a common rail fuel injection system having one or more fuel injectors; operating the engine at a selected set of operating conditions; conducting a motoring event; allowing a first settling duration; measuring a first rail pressure; operating a first selected injector including operating the first selected injector singly in response to a selected fuel quantity, a selected number of combustion cycles, and a selected number of injections per combustion cycle; allowing a second settling duration; measuring a second rail pressure; calculating a pressure difference value in response to the first rail pressure and the second rail pressure; inferring an amount of fuel delivered by the first selected injector in response to the pressure difference value; and evaluating a first performance factor of the first selected injector in response to the amount of fuel delivered. | 12-22-2011 |
20110320104 | ENGINE COMBUSTION CONTROL USING IGNITION DWELL - An engine control system, a controller for the engine control system, and a method of controlling a combustion process in an internal combustion engine operating at an engine operating condition. The engine control is based on closed-loop control of ignition dwell. Ignition dwell is defined as time or crank angle difference between an end of fuel injection (EOI), or some other aspect of an injection control signal, and a start of combustion (SOC), or some other aspect of an internal combustion event. One or more engine control devices, such as a fuel injector or an exhaust gas recirculation valve may be varied to control ignition dwell. By providing such a closed-loop engine control based on ignition dwell, the air/fuel charge mixture, and/or stratification present in the combustion chamber at the moment combustion starts may be controlled. Advanced combustion systems utilizing premixed compression ignition (PCI) offer the benefit of low temperature combustion for simultaneous low NOx and particulate emissions with high fuel economy. Combustion control based on ignition dwell can be used to optimize engine emissions and fuel consumption for PCI over the operating range. | 12-29-2011 |
20110320105 | Electronically Controlled Diesel Engine - An object is to provide an electronically controlled diesel engine capable of inhibiting the drastic increase of the fuel injection quantity from the fuel injection quantity before acceleration without the measurement of the relation between the number of revolutions of an engine, boost pressure, and the upper smoke limit of the fuel injection quantity. An electronically controlled diesel engine includes an judge part of an acceleration ( | 12-29-2011 |
20120004822 | Method and Device For Controlling an Internal Combustion Engine - A method and a device for controlling an internal combustion engine are described. At least one injector meters a certain fuel quantity to the internal combustion engine at a certain point in time on the basis of a first signal and/or a second signal. At least the first and/or the second signal is/are corrected using a correction value. The correction value is adapted on the basis of at least one information value which is provided by at least one compensation procedure. | 01-05-2012 |
20120004823 | INDUCTION BACKFIRE COMPENSATION FOR MOTORCYCLES - A control system for an engine having at least one manifold, a throttle, and a crank wheel, includes a pressure sensor to measure a pressure in the at least one manifold, a throttle position sensor to measure a position of the throttle of the engine, a revolution sensor to measure a rate of rotation of the crank wheel of the engine, a processor in communication with each of the pressure sensor, the throttle position sensor, and the revolution sensor to receive an input signal, analyze the input signal based upon an instruction set, and generate a control signal in response to analysis of the input signal, wherein the input signal is representative of at least one of the pressure, the throttle position, and the rate of rotation, and an engine system in communication with the processor and responsive to the control signal to control a function thereof. | 01-05-2012 |
20120004824 | NATURAL GAS AND DIESEL FUEL BLENDING SYSTEM - An electronically controlled fuel blending system that injects compressed natural gas into the air intake of a diesel engine resulting in lower emissions, increased fuel economy is disclosed. | 01-05-2012 |
20120004825 | Method for the Operation of an Internal Combustion Engine Comprising an Emission Control System that Includes an SCR Catalyst - A method for operating an internal combustion engine comprising an exhaust gas cleaning system that includes a SCR catalyst. In conjunction with a cold start and/or a warm-up of the internal combustion engine, the internal combustion engine is operated using a cold start engine operation method having predefineable values for predefineable operating parameters of the internal combustion engine. An amount of nitrogen oxides stored in the SCR catalyst is estimated, and the cold start engine operation method is activated when the estimation indicates that the nitrogen oxide storage amount exceeds a predefineable nitrogen oxide storage amount limit value. | 01-05-2012 |
20120004826 | DIESEL ENGINE AND METHOD OF CONTROLLING THE DIESEL ENGINE - A diesel engine is provided, which includes an engine body to be supplied with fuel containing diesel fuel as its main component, a geometric compression ratio being set to 15:1 or below, a fuel injection valve arranged in the engine body so as to be oriented toward a cylinder of the engine body and for directly injecting the fuel into the cylinder, and a control module for controlling a mode of injecting the fuel into the cylinder through the fuel injection valve. The control module performs a main injection where the fuel is injected to cause a main combustion mainly including a diffusion combustion and performs a plurality of pre-stage injections where the fuel is injected prior to the main injection to cause a pre-stage combustion prior to the main combustion. The control module controls the injection mode of the injections to adjust a heat release rate. | 01-05-2012 |
20120004827 | AIR-FUEL RATIO CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - An air-fuel ratio control apparatus for an internal combustion engine includes an air-fuel ratio sensor having an output characteristic which is nonlinear with respect to the air-fuel ratio of exhaust gas. An output deviation converter is configured to convert an output deviation to a first predetermined value if an output value of the air-fuel ratio sensor is on a richer side of a predetermined target value and to a second predetermined value if the output value is on a leaner side of the target value. A control input calculator is configured to calculate a control input to feedback-control the output value of the air-fuel ratio sensor such that the output deviation converted by the output deviation converter is to be zero. An air-fuel ratio controller is configured to control the air-fuel ratio of exhaust gas using the control input calculated by the control input calculator. | 01-05-2012 |
20120004828 | SPARK IGNITION TYPE INTERNAL COMBUSTION ENGINE - The control system of an internal combustion engine of the present invention comprises an S/V ratio changing mechanism able to change an S/V ratio of a combustion chamber and a detection device having an output value changing in accordance with a hydrogen concentration in exhaust gas, which increases along with an increase in the S/V ratio, the internal combustion engine being controlled by the output value of the detection device. Further, the output value of the detection device or a parameter relating to operation of the internal combustion engine is corrected in accordance with the S/V ratio of the above S/V ratio changing mechanism. Due to this, even if the hydrogen concentration in the exhaust gas increases along with an increase in the S/V ratio, the internal combustion engine can be suitably controlled. | 01-05-2012 |
20120004829 | Fuel Injection Control During Start-Up - A method of operation of an internal combustion engine including an intake valve coupled to a combustion chamber, and a port fuel injector positioned upstream of the intake valve in an intake manifold including a throttle, the port fuel injector fluidly coupled to a fuel rail included in a fuel delivery system housing a fuel at least partially composed of alcohol. The method including, during a start-up operation when the temperature of the engine is below a threshold value and fuel is actively being injected into the intake manifold, adjusting a cone angle of a fuel spray from the port fuel injector, via adjustment of the throttle and/or fuel delivery system, based on the position of the intake valve. | 01-05-2012 |
20120004830 | CONTROLLER FOR INTERNAL COMBUSTION ENGINE - An internal combustion engine ( | 01-05-2012 |
20120004831 | CONTROLLER FOR INTERNAL COMBUSION ENGINE - An internal combustion engine uses, as the fuel, ammonia and gasoline (supporting fuel) for promoting the combustion of the ammonia. The ammonia is injected from an ammonia injector into an intake pipe, and the gasoline is injected from a gasoline injector into the intake pipe. An electronic control unit for drivingly controlling the ammonia injector and the gasoline injector stops the injection of the ammonia from the ammonia injector and allows the injection of the gasoline from the gasoline injector when the temperature of a cooling water of the internal combustion engine detected by a cooling water temperature sensor is equal to or lower than a predetermined temperature. | 01-05-2012 |
20120016566 | Method for Purging Fuel Vapors - A method for improving purging of fuel vapors from a boosted engine is presented. In one embodiment, the method increases the efficiency of a venturi that supplies vacuum to purge fuel vapors from a vapor storage canister. | 01-19-2012 |
20120016567 | METHOD OF CONTROLLING THE COMBUSTION PHASE OF A FUEL MIXTURE OF A SPARK-INGNITION SUPERCHARGED INTERNAL-COMBUSTION ENGINE, NOTABLY OF GASOLINE TYPE - The present invention relates to a method of controlling the combustion phase of a fuel mixture of a spark-ignition supercharged internal-combustion engine comprising at least one cylinder ( | 01-19-2012 |
20120016568 | COMBUSTION STATE DETECTION SYSTEM AND COMBUSTION STATE DETECTION METHOD FOR INTERNAL COMBUSTION ENGINE - Detecting a combustion state of an internal combustion engine includes calculating a one-step difference value and a two-step difference value of a physical quantity that correlates with torque generated by the internal combustion engine; detecting that a misfire has occurred, when the calculated one-step difference value is greater than a first determining value, and the calculated two-step difference value is greater than a second determining value; and determining the first determining value and the second determining value according to a required torque of the internal combustion engine, sensitivity of a change in the one-step difference value with respect to a change in the required torque, and sensitivity of a change in the two-step difference value with respect to a change in the required torque. | 01-19-2012 |
20120022765 | FUEL INJECTION CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - A fuel injection control system for an internal combustion engine, which is capable of properly performing instantaneous injection, thereby capable of attaining excellent exhaust emissions at the start of the engine, and performing prompt engine starting. In the fuel injection control system, the instantaneous injection that injects fuel to a predetermined cylinder is executed immediately when it is determined that a predetermined condition is satisfied after cranking of the engine is started. A leaning influence ratio which is a ratio of a time period during which vaporized fuel supplied to the predetermined cylinder becomes lean to a instantaneous injection time period which is a time period over which fuel is injected by the instantaneous injection is estimated. A threshold value is set based on temperature of the engine. When the leaning influence ratio is larger than the threshold value, the instantaneous injection is inhibited. | 01-26-2012 |
20120022766 | METHOD OF PROVIDING TRIM DATA FOR A FUEL INJECTION DEVICE - A method of providing electronic trim data for a fuel injection device to an engine system, the method comprising: reading an identifier associated with the fuel injection device; accessing a database containing trim data associated with the identifier; downloading the trim data for the fuel injection device; uploading the downloaded trim data to the engine system for use in controlling fuel injection device operation. | 01-26-2012 |
20120022767 | ERROR DETECTOR FOR INJECTION CHARACTERISTIC DATA - An error detector includes an injector-memory provided to a fuel injector injecting a fuel into an internal combustion engine, and an ECU-memory provided to an ECU. The injector-memory stores a characteristic data indicative of injection characteristics of the fuel injector. The ECU-memory stores a characteristic data which is identical to the data stored in the injector-memory. The injector-memory further stores another characteristic data which is identical to the characteristic data stored in the injector-memory. The ECU compares three characteristic data stored in the injector-memory and the ECU-memory to determine whether three characteristic data are identical to each other, whereby an error is detected. | 01-26-2012 |
20120022768 | FUEL RECOVERY - Fuel is recovered from a combustion engine without turning the combustion engine on. A controller initiates operation of a fuel pump of the combustion engine to cause the fuel pump to pump a predefined amount of fuel in the fuel line directly to a drain conduit. | 01-26-2012 |
20120022769 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A control apparatus for an internal combustion engine is provided, the control apparatus being capable of effectively suppressing the inflow of fresh air into a catalyst due to an operational delay of the valve stop mechanism when an execution request for fuel cut is issued. There is provided a valve stop mechanism capable of changing the operational states of intake valves and exhaust valves between a valve operating state and a valve closed/stopped state. The operational states of the intake and exhaust valves are changed into the valve closed/stopped state, if the engine rotational speed decreases to or below a predetermined rotational speed when the engine rotational speed is higher than the predetermined rotational speed in a case where an execution request for fuel cut is detected and the temperature of the catalyst is not lower than a predetermined temperature during operation of an internal combustion engine | 01-26-2012 |
20120029789 | Methods of detecting pre-ignition and preventing it from causing knock in direct injection spark ignition engines - A method of preventing a pre-ignition event within a cylinder ( | 02-02-2012 |
20120029790 | AIR-FUEL RATIO DIAGNOSTIC DEVICE FOR INTERNAL COMBUSTION ENGINE - An air-fuel ratio diagnostic device for an internal combustion engine. The device includes an air-fuel ratio that detects oxygen concentration in the exhaust. A determination unit determines a variation in air-fuel ratio between engine cylinders based on a detection value of the air-fuel ratio sensor. A change amount in the detection value for a certain time when the detection value is changing from a lean side peak value toward a rich side peak value is defined as a rich change rate. A change amount in the detection for a certain time when the detection value is changing from a rich side peak value toward a lean side peak value is defined as a lean change rate. The determination unit determines a degree of variation between the cylinders based on the rich and lean change rates. | 02-02-2012 |
20120029791 | PRE-DELIVERY STRATEGY FOR DIESEL- ENGINE VEHICLES - A method to supply fuel to an engine of a vehicle is provided. The method includes adjusting a direct injection of fuel into a cylinder of the engine based on whether the vehicle is in a pre-delivery state. In one example, the method includes reducing an amount of fuel in a post injection to reduce cylinder bore wetting effects and lubricant dilution during the engine cold start. After pre-delivery, a normal post injection schedule may be used to reduce emissions. | 02-02-2012 |
20120041664 | Method for powering an apparatus - An internal combustion engine is coupled to a supercharger operable to supply varying amounts of air to the engine responsive to the load on the engine. The supercharger has a pair of screw rotors driven by the engine to move air to the engine and a control apparatus for varying the mass and pressure of air supplied to the engine. | 02-16-2012 |
20120041665 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE WITH GAS AS A FUEL - A method for operating an internal combustion engine is provided. The method comprises, during low and medium load conditions, introducing fuel from a fuel tank by intake pipe injection into at least one intake air line coupled to at least one cylinder, and during high load conditions, introducing the fuel from the fuel tank by direct injection into the at least one cylinder. In this way, the method of fuel delivery may be optimized based on the load conditions. | 02-16-2012 |
20120046852 | Closed Loop Control of Fuel Viscosity in Multi-Fuel Engine - A system and method for controlling the viscosity of liquid fuel delivered from a fuel tank to the fuel injectors of an internal combustion engine. A viscosity sensor is placed in the fuel line, or in a bypass fuel line, in close proximity downstream the fuel injectors. A heat exchanger is placed on the fuel line downstream the sensor. The sensor is a rotating cylinder having a nominal rotation velocity, and is configured to rotate such that the nominal rotation velocity increases or decreases in response to fuel viscosity. The sensor delivers a measurement signal to a control unit, which performs a closed loop algorithm to adjust the heat provided by the heat exchanger until the measured rotation matches a target rotation. | 02-23-2012 |
20120065866 | VEHICLE ACCELERATION WHEN IN AN AIR RESTRICTION MODE - A method of controlling an engine of a vehicle having a particulate filter and operable in an air restriction mode wherein air inflow to an air intake throttle is restricted includes determining if the engine is operating in the air restriction mode, sensing a position of an accelerator pedal, and sensing a speed of the vehicle. The method further includes removing the restriction to the air intake throttle when the engine is operating in the air restriction mode, one of a change in position of the accelerator pedal over a period of time is greater than a pre-defined pedal acceleration rate or the position of the accelerator pedal is equal to a pre-defined pedal limit, and the speed of the vehicle is less than a pre-defined speed limit. | 03-15-2012 |
20120065867 | METHOD AND SYSTEM FOR OPTIMIZING FUEL DELIVERY TO A FUEL INJECTED ENGINE OPERATING IN POWER MODE - A method and system are provided for optimizing fuel delivery to an internal combustion engine. The method and system have particular applicability to an engine having a base or OEM engine control unit (ECU) which outputs fuel injector control signals. In accordance with the method, when the engine is operating in one or more modes, such as a Power Mode, the amount of fuel delivered to the engine is modified, such as by changing the duration of the fuel injector control signals with a secondary ECU. The control signals are modified based on engine speed, and thus in direct relation to engine performance. | 03-15-2012 |
20120065868 | FUEL SUPPLY APPARATUS FOR INTERNAL COMBUSTION ENGINE AND CONTROL METHOD THEREOF - In control executed by a fuel supply apparatus having a delivery passage that delivers fuel to a fuel injection valve, a fuel pump that pumps the fuel from a fuel tank to the delivery passage, and a check valve that allows the fuel to flow out of the delivery passage into the fuel tank, that opens when a first fuel pressure on the delivery passage is higher than a second fuel pressure on the fuel tank by at least a set pressure, when the first fuel pressure is lower than a lower limit pressure being higher than the set pressure in a case where fuel injection is to be stopped, the fuel pump is controlled so that the first fuel pressure rises to or above the lower limit pressure, and after the first fuel pressure has reached or exceeded the lower limit pressure, the abnormality diagnosis is executed on the check valve. | 03-15-2012 |
20120072093 | Apparatus and Method for Controlling Fuel Injection of Internal Combustion Engine - The present invention relates to a fuel injection control apparatus for controlling fuel injection and a method therefor in an engine having first and second intake passages provided with first and second fuel injection valves, respectively. Fuel injection modes using the two injection valves include an alternative injection mode in which the first and second fuel injection valves are alternately operated every predetermined number of cycles and a combined injection mode in which both the first and second fuel injection valves are used for each cycle. Then, the combined injection mode is selected in a full load range. In a partial load range, the alternative injection mode is selected in a cold state and the combined injection mode is selected after warm-up. Accordingly, it is possible to reduce an equilibrium amount of adhering fuel to an inner wall of an intake passage. | 03-22-2012 |
20120072094 | METHOD FOR THE AUTOMATIC LAMBDA CONTROL OF AN INTERNAL COMBUSTION ENGINE - A method for automatic lambda control of an internal combustion engine, in which, upon detection of a predetermined operating state of the internal combustion engine, a calibration factor (KAL) is determined and in which, during the operation of the internal combustion engine, a lambda measuring signal (iP) is corrected by the calibration factor (KAL) and is set as the actual lambda value (Lam(IST)) for the automatic lambda control of the internal combustion engine. The predetermined operating state is recognized when an engine coastdown is initiated. | 03-22-2012 |
20120072095 | MALFUNCTION DETECTING DEVICE FOR INTERNAL COMBUSTION ENGINE - A malfunction detecting device for an internal combustion engine is mounted on a vehicle and includes an engine and a control unit. The engine is a multi-cylinder engine and is a bifuel-enabled engine which is capable of switching plural kinds of fuels including a gas fuel and which can use bifuel. The control unit detects, in case of detecting a malfunction with respect to an imbalance of an air fuel ratio among the cylinders at a time of an operation based on the gas fuel, the malfunction based on a rotational speed variation of the engine and/or a variation of pressure pulsations of the gas fuel due to a fuel injection. | 03-22-2012 |
20120078489 | Method for controlling the air system in an internal combustion engine - The invention relates to a method for closed loop controlling the air system in an internal combustion engine, in particular a diesel internal combustion engine with a first actuating element for recirculated exhaust gas in the exhaust gas recirculation tract and a second actuating element for air in the inlet tract, the two actuating elements being adjusted as a function of each other. In order to increase the quality of closed loop control, provision is made for each actuating element to be controlled separately by its own respective controller, each controller being optimally configured for the respective controlled system, and a target value being provided for each controller. | 03-29-2012 |
20120078490 | METHODS AND SYSTEMS FOR CONTROLLING THE ENGINE SPEED OF AGRICULTURAL VEHICLES FOR INCREASING ENGINE SPEEDS - An engine speed control system for an agricultural vehicle includes a variable throttle controller, a mode selector, and a control device. The variable throttle control permits an operator to select a variably adjustable engine speed and the mode selector permits the operator to select between a plurality of pre-set engine speeds. The control device receives output signals from the throttle controller, generates engine speed commands, and delivers the commands to an engine controller for controlling the speed of the agricultural vehicle's engine. The control device is operable to generate a first engine speed command associated with one of the pre-set engine speeds when an operator activates the mode selector and to temporarily or permanently override the first engine speed command with a second engine speed command associated with the throttle controller when the operator activates the throttle controller. | 03-29-2012 |
20120083993 | ENGINE CONTROLLING APPARATUS - An engine controlling apparatus includes a setting unit that sets a demand torque to an engine, a detection unit that detects a fluctuation of an external load, and a correction unit that corrects the demand torque. The apparatus includes a target torque calculation unit that calculates a target torque based on the demand torque, a control unit that controls an amount of air to be introduced into the engine so that an output torque may come close to the target torque, and an ignition timing detection unit that detects an ignition timing of the engine. | 04-05-2012 |
20120083994 | CONTROLLER FOR INTERNAL COMBUSTION ENGINE - A multicylinder engine is provided with a fuel injector for each cylinder. An ECU defines a fuel injection condition of the fuel injector based on an engine driving condition and executes a fuel injection control for each cylinder based on the defined fuel injection condition. The ECU computes an engine speed with respect to each cylinder. While the engine is running, the fuel injection condition is operated in an operation cylinder. A fuel property is determined based on the engine speed of the operation cylinder and an engine speed of a non-operation cylinder. | 04-05-2012 |
20120089318 | Method for controlling the air supply in a cylinder of a four-stroke internal combustion engine with controlled ignition - A method for controlling air supply in a cylinder of a four-stroke internal-combustion engine with controlled ignition includes steps of: determining, in a phase prior to a suction phase, an estimate of mass of desired air to be sucked into the cylinder during the suction phase; determining, in a phase prior to the suction phase, a forecast of suction pressure during the suction phase; determining, in a phase prior to the suction phase, programming of suction of air as a function of the estimate of the mass of the desired air to be sucked into the cylinder during the suction phase and of the forecast of the suction pressure during the suction phase; and controlling, until an end of an exhaust phase, the suction of air into the cylinder by piloting a control device for implementation of an intake valve according to the programming of the suction of air. | 04-12-2012 |
20120095667 | FUEL PUMP CONTROL DEVICE FOR AN INTERNAL COMBUSTION ENGINE - An engine fuel pump control apparatus is provided. The engine fuel pump control apparatus is connected to an engine and a transmission. A fuel pump is interposed in a fuel conduit between a fuel tank and the engine and the fuel pump has a selectively variable fuel delivery rate. A fuel pump controller is configured to adjust a fuel delivery rate from the fuel pump to the engine in which the fuel pump controller is configured to increase the fuel delivery rate as a rotational speed of the engine increases. The fuel pump controller is further configured to adjust the fuel delivery rate as a detected vehicle speed characteristic varies. | 04-19-2012 |
20120095668 | METHOD FOR FEED-FORWARD CONTROLLING FUEL INJECTION INTO A CYLINDER OF AN INTERNAL COMBUSTION ENGINE - A method is provided for feed-forward controlling fuel injection into a cylinder of an internal combustion engine that includes, but is not limited to setting a desired value of a combustion parameter indicative of a fuel combustion within the cylinder, determining a value of one or more engine operating parameters, using the desired value of the combustion parameter and the determined values of the engine operating parameters for determining a value of a parameter of a fuel injection into the cylinder, and commanding a fuel injector associated to the cylinder to perform a fuel injection having the determined value of the fuel injection parameter. | 04-19-2012 |
20120101707 | METHOD FOR OPERATING AN INJECTOR - A method for operating an injector, in particular of an internal combustion engine of a motor vehicle, in which a component of the injector, in particular a valve needle, is driven with the aid of an electromagnetic actuator. According to the present invention, a variable which characterizes the acceleration of a movable component of the electromagnetic actuator, in particular of an armature of the electromagnetic actuator, is formed as a function of at least one electrical operating variable of the electromagnetic actuator, and an operating state of the injector is deduced as a function of the variable which characterizes the acceleration. | 04-26-2012 |
20120101708 | START-UP CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - An object is to provide a technology that enables starting of fuel injection under a condition that allows injected fuel to ignite and burn at the time of start-up of an internal combustion engine. To achieve the object, a start-up control system for an internal combustion engine according to the invention estimates, at the time of start-up of the internal combustion engine, the amount of rotation of a crankshaft in a period since the start of cranking until a crank position sensor outputs an effective pulse signal and determines, based on the stopping position of the crankshaft specified by the value thus estimated, whether or not fuel is to be injected at the first fuel injection time. | 04-26-2012 |
20120109496 | FUEL INJECTION SYSTEM - A method for controlling the supply of a first fuel and a second fuel to an engine, which engine is fuelled by the first fuel only in a first mode of operation and by a mixture of the first fuel and the second fuel in a second mode of operation, the method comprising the steps of: 1) calculating the mass of first fuel Md required by the engine if running in the first mode; 2) calculating from the mass Md, the fuel energy Fe that the amount of mass Md would provide; 3) determining a minimum reduced amount of diesel fuel Fdmin with which it is desired to operate in the second mode; 4) calculating the amount of second fuel Msub, which together with the reduced amount of diesel fuel Fdmin will provide a fuel energy equivalent to Fe. | 05-03-2012 |
20120109497 | ABNORMAL INTER-CYLINDER AIR-FUEL RATIO IMBALANCE DETECTION APPARATUS FOR MULTI-CYLINDER INTERNAL COMBUSTION ENGINE - The invention provides an abnormal inter-cylinder air-fuel ratio imbalance detection apparatus for a multi-cylinder internal combustion engine. The abnormal inter-cylinder air-fuel ratio imbalance detection apparatus is provided with: an air-fuel ratio sensor provided at an exhaust passage of the multi-cylinder internal combustion engine; an abnormal imbalance detection portion that detects an abnormal imbalance between air-fuel ratios corresponding to respective cylinders of the multi-cylinder internal combustion engine through a comparison between a value of a parameter correlative to a variation of an output of the air-fuel ratio sensor and a predetermined abnormality threshold; and a correction portion that corrects at least one of the value of the parameter and the abnormality threshold based on an atmospheric pressure. | 05-03-2012 |
20120109498 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A control apparatus for an internal combustion engine includes a fuel injection portion that carries out fuel injection for the internal combustion engine, a recirculation portion that recirculates to an intake system evaporative gas of injected fuel that has been mixed with lubricating oil for the internal combustion engine, a parameter acquisition portion that acquires a fuel mixture parameter corresponding to an amount of fuel that has been mixed with the lubricating oil, an engine stop portion that performs engine stop control to temporarily stop the internal combustion engine when a predetermined stop condition is fulfilled, and a stop condition correction portion that corrects a stop condition of the engine stop control on the basis of at least the fuel mixture parameter. | 05-03-2012 |
20120109499 | METHOD FOR REGULATING A GAS ENGINE - The invention relates to a method for regulating a gas engine ( | 05-03-2012 |
20120109500 | METHOD AND DEVICE FOR OPERATING AN INTERNAL COMBUSTION ENGINE - In a method for operating an internal combustion engine having an intake tract and one injection valve per cylinder, a lambda controller having an associated lambda sensor for correcting an air-fuel ratio in the combustion chamber, an engine operating temperature is detected and a air mass target value in the combustion chamber is determined as a function of an engine operating state. When the lambda controller is deactivated, a first adaptation value is determined as a function of the captured operating temperature, of the determined air mass target value, and a prescribed first weighting value. A second adaptation value is further determined as a function of the determined air mass target value and a prescribed second weighting value. The metering of the fuel mass and/or a model of the air mass fed into the combustion chamber is corrected as a function of the first and second adaptation value. | 05-03-2012 |
20120116651 | INTER-CYLINDER AIR-FUEL RATIO IMBALANCE JUDGMENT DEVICE FOR MULTI-CYLINDER INTERNAL COMBUSTION ENGINE - When the intake air amount is smaller than the specific intake air amount, the unit air-fuel ratio change amount calculated during the engine operation is corrected such that the unit air-fuel ratio change amount increases in the condition that the base unit air-fuel ratio change amount is an upper limit and when the intake air amount is greater than the specific intake air amount, the unit air-fuel ratio change amount calculated during the engine operation is corrected such that the unit air-fuel ratio change amount decreases in the condition that the base unit air-fuel ratio change amount is a lower limit. When the corrected unit air-fuel ratio change amount is greater than the judgment value, it is judged that the inter-cylinder air-fuel ratio imbalance condition occurs. | 05-10-2012 |
20120116652 | METHOD FOR OPERATING A MOTOR VEHICLE - A method is provided for operating a motor vehicle having an internal combustion engine ( | 05-10-2012 |
20120116653 | STOP CONTROL SYSTEM AND METHOD FOR INTERNAL COMBUSTION ENGINE - To provide a stop control system for an internal combustion engine, which is capable of accurately stopping a piston at a predetermined position while compensating for variation in the stop characteristic of the piston and aging thereof. The stop control system | 05-10-2012 |
20120130620 | METHOD FOR ESTIMATING AN INSTANTANEOUS PRESSURE VALUE IN A FUEL LINE OF A FUEL INJECTION SYSTEM - A method is provided for estimating an instantaneous pressure value P | 05-24-2012 |
20120143473 | METHOD AND SYSTEM FOR CONTROLLING FUEL INJECTION FOR VEHICLES - A method and system for controlling fuel injection for vehicles controls fuel injection amount according to change in kinetic energy of the vehicle or performs fuel cut control so as to improve fuel economy. The method may include setting a first energy line corresponding to energy loss due to running resistance when deceleration, setting a second energy line corresponding to energy loss due to engine friction, determining whether kinetic energy of the vehicle is above the first energy line after a predetermined time has elapsed, and injecting fuel by an amount generating energy corresponding to a sum of engine friction energy and braking energy in a case that the kinetic energy of the vehicle is above the first energy line. | 06-07-2012 |
20120143474 | SYSTEM FOR PREVENTING KNOCKING AND METHOD FOR CONTROLLING THE SAME - A system and method for preventing knocking prevents knocking by injecting a sub fuel including ethanol having high octane number to a combustion chamber in a case that the knocking occurs. The system for preventing knocking may include a cylinder, a piston moving in the cylinder reciprocally, forming a combustion chamber with the cylinder, and having a central axis, a first injector mounted at an upper surface of the cylinder with a distance from the central axis of the piston, and directly injecting a main fuel including gasoline into the combustion chamber, a second injector mounted at the upper surface of the cylinder on the central axis of the piston, and directly injecting a sub fuel including ethanol into the combustion chamber, and a spark plug disposed at the upper surface of the cylinder near the second injector. | 06-07-2012 |
20120143475 | FUEL SUPPLY SYSTEM FOR GDI ENGINE AND CONTROL METHOD THEREOF - A fuel supply system for a Gasoline Direct Injection (GDI) engine may include an Engine Control Unit (ECU) that sets a desired fuel pressure and controls a fuel pressure of a section from a low-pressure fuel pump to a high-pressure fuel pump in accordance with the desired fuel pressure, and a fuel pressure sensor that measures the fuel pressure of the section from the low-pressure fuel pump to the high-pressure fuel pump and supplies the measured fuel pressure to the ECU for feedback-controls of the low-pressure fuel pump. The fuel supply system may further include a fuel pump controller disposed between the ECU and the low-pressure fuel pump to control the low-pressure fuel pump. A control method of the fuel supply system may include detecting the number of revolution of the engine and the load, setting the desired fuel pressure, and feedback controlling the low-pressure pump. | 06-07-2012 |
20120143476 | METHOD AND SYSTEM FOR COMPENSATING ENGINE THERMAL CONDITIONS - A method for compensating for thermal transient conditions of an engine that can cause valve growth or contraction is disclosed. In one example, the method provides cylinder air amount compensation during non-blow-through and blow-through conditions. The approach may improve cylinder air amount estimates, thereby improving engine emissions. | 06-07-2012 |
20120143477 | METHODS AND SYSTEMS FOR CONTROLLING FUEL INJECTION - Various systems and methods are provided for controlling fuel injection to an engine. In one example, fuel injection timing of a cylinder of the engine is adjusted during a hot engine restart such that a fuel injector is open only when the cylinder pressure is greater than a threshold cylinder pressure. The threshold cylinder pressure may be adjusted responsive to a fuel rail pressure. | 06-07-2012 |
20120158268 | FUEL-INJECTION-CHARACTERISTICS LEARNING APPARATUS - A characteristics-detecting-portion analyzes a fuel injection condition based on a fuel pressure waveform which represents a variation in a detection value of the fuel pressure sensor and then detects the fuel-injection-characteristic value based on the analyzed fuel injection condition. The detected parameter is learned and stored in a memory in association with a fuel temperature detected by a fuel temperature sensor. A fuel-injection-rate model is established based on the learned detected parameters. A command-fuel-injection start time and a command-fuel-injection period are defined by use of the fuel-injection-rate model and the current fuel temperature. | 06-21-2012 |
20120158269 | VEHICLE CONTROL APPARATUS - A vehicle control apparatus ( | 06-21-2012 |
20120166064 | INTAKE AIR FLOW RATE CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A required intake air flow rate is converted to a post-model required intake air flow rate (BMtsm) by a base-system normative model, and the inverse model of an intake system model is used to calculate a base-system required throttle opening degree (BTA) so as to achieve the post-model required intake air flow rate (BMtsm). On the other hand, the required in-take air flow rate (Mt) is converted to a post-model required intake air flow rate (HMtsm) by a high-response-system normative model, and the inverse model of the intake system model is used to calculate a high-response-system required throttle opening degree (HTA) so as to achieve the post-model required intake air flow rate (HMTsm). Then, a target throttle opening degree (TAt) is set so as to fall within the range from the base-system required throttle opening degree (BTA) to the high-response-system required throttle opening degree (HTA) and the reduce a variation amount. | 06-28-2012 |
20120166065 | EVENT BASED ENGINE CONTROL SYSTEM AND METHOD - A system for starting an engine is described. In one example, the engine is supplied two fuels via two injectors. The method may improve engine starting and reduce engine emissions. | 06-28-2012 |
20120173122 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE INCLUDING VALVE STOP MECHANISM - A control apparatus which is capable of determining an abnormality of a stopping operation of an exhaust valve without using a dedicated sensor for detecting the abnormality in an internal combustion engine including a valve stop mechanism capable of maintaining the exhaust valve and an intake valve in a valve closed state is provided. It is discriminated whether or not there is a change to a rich side of a air fuel ratio of gas detected by a main A/F sensor at the time of a fuel cut for all the cylinders associated with a valve stop request for the exhaust valves and intake valves of all the cylinders. Then, when it is discriminated that there is the change to the rich side of the air fuel ratio of the gas, it is determined that the stopping operation of the exhaust valve is not performed in a normal manner in at least one cylinder. | 07-05-2012 |
20120173123 | Engine Idle Speed and Turbocharger Speed Control - Various methods are described for controlling engine operation for an engine having a turbocharger and direction injection. One example method includes performing at least a first and second injection in response to a driver action. The first and second injection may be performed during a cylinder cycle, the first injection generating a lean combustion and the second injection injected after combustion such that it exits the cylinder unburned into the exhaust upstream of a turbine of the turbocharger. | 07-05-2012 |
20120173124 | ENGINE CONTROL APPARATUS - An engine control apparatus in which a fuel injection apparatus injects a fuel to an engine; detecting means detects a drive state of the engine, and an ECU controls actuation of the fuel injection apparatus on the basis of a detection information of the detecting means and a specific output characteristic data of the engine, wherein compensating means for compensating the output characteristic data is provided, and the ECU is structured such as to compute a limit torque value on the basis of a result of compensation of the output characteristic data by the compensating means and the detection information of the detecting means, and actuate the fuel injection apparatus in correspondence to the limit torque value. | 07-05-2012 |
20120179355 | DIAGNOSTIC METHOD AND DIAGNOSTIC SYSTEM FOR MULTICYLINDER INTERNAL COMBUSTION ENGINE - A diagnostic method for a multicylinder internal combustion engine is provided. The method comprises determining that malfunction pertaining to the air-fuel ratio has occurred when degree of the rotational fluctuation is equal to or more than a first determination value; determining that malfunction pertaining to the air-fuel ratio has not occurred when the degree of the rotational fluctuation is equal to or less than a second determination value that is smaller than the first determination value; and changing mode of engine control when the degree of the rotational fluctuation is smaller than the first determination value and greater than the second determination value. After the changing, the determining that malfunction pertaining to the air-fuel ratio has occurred is repeated. | 07-12-2012 |
20120185151 | SYSTEM AND METHOD FOR CONTROLLING FUEL INJECTION TO DECREASE PARTICULATE EMISSIONS DURING TRANSIENT ENGINE OPERATION - A control system for an engine includes a transient operation detection module, an injection determination module, and an injection control module. The transient operation detection module detects whether the engine is operating in a transient state. The injection determination module, based on an elapsed time since a fuel request and at least one of a plurality of engine operating parameters, at least one of (i) increases a number of fuel injections per combustion cycle to N, and (ii) adjusts periods for each of the fuel injections, wherein N is an integer greater than or equal to two. The injection control module controls fuel injection during the transient state based on at least one of (i) N fuel injections per combustion cycle and (ii) the adjusted periods. | 07-19-2012 |
20120185152 | FUEL RAIL PRESSURE CONTROL SYSTEMS AND METHODS - A fuel control system includes a target rail pressure module. The target rail pressure module determines a target fuel rail pressure of a fuel rail of a direct injection engine. An offset module determines an offset value based on an engine speed of the direct injection engine and at least one of an engine load and an air per cylinder. A modifier module determines a modifier value based on a temperature of the direct injection engine. A rail pressure control module adjusts a current fuel rail pressure of the fuel rail based on the target fuel rail pressure, the offset value and the modifier value. | 07-19-2012 |
20120185153 | METHOD FOR MANAGING THE TRANSITION BETWEEN TWO COMBUSTION MODES IN AN INTERNAL COMBUSTION ENGINE - A method is disclosed for managing the transition between a lean combustion mode and a rich combustion mode, or vice versa. After a regeneration demand, or at the end of the regeneration phase, the air mass flow is modified from a first set point to a new set point within a predetermined time depending on the engine conditions. An air mass percentage value is cyclically calculated and compared with a target value. When the target value is reached, the fuel path is then suddenly switched to compensate the torque change due to different combustion modes and to achieve the desired rich or lean condition. | 07-19-2012 |
20120191322 | Controlling an Engine Having an Electronically-Controlled Turbocharger - A procedure for startup and shutdown of an internal combustion engine with an electronically-controlled turbocharger (ECT) is disclosed. The startup and shutdown procedures are determined to provide the desired lubrication to engine and ECT components and sufficient cooling of the engine and ECT. In one embodiment, the system includes an electric oil pump that can supply oil to the oil circuit in the engine and ECT independently of an engine-driven mechanical oil pump. In another embodiment, the oil circuit is provided with an oil accumulator to provide oil for cooling after engine rotation has stopped. | 07-26-2012 |
20120203442 | FUEL INJECTOR INTERFACE AND DIAGNOSTICS - A method comprising receiving a fuel injection signal from a first driver circuit via a control line, feeding the fuel injection signal to a second fuel injector driver circuit, sending a control signal output from the second fuel injector driver circuit to a fuel injector, monitoring the fuel injector for degradation based on operation according to the control signal, and in response to degradation of the fuel injector, changing a state of the control line. | 08-09-2012 |
20120203443 | Fuel-Based Injection Control - Systems and methods of operating an engine, the engine including an injector configured to directly inject fuel into an engine cylinder. One example method comprises, during an engine cold start, performing compression direct fuel injection, and retarding a timing of the compression injection as a fuel alcohol content of the fuel increases. | 08-09-2012 |
20120209497 | INTER-CYLINDER AIR-FUEL RATIO IMBALANCE ABNORMALITY DETERMINATION DEVICE - An inter-cylinder air-fuel ratio imbalance abnormality determination device includes a catalyst provided in an exhaust passage of a multi-cylinder internal combustion engine; a pre-catalyst sensor; a post-catalyst sensor; an air-fuel ratio control unit that performs main air-fuel ratio control based on an output of the pre-catalyst sensor and auxiliary air-fuel ratio control based on an output of the post-catalyst sensor; a control amount calculation unit that calculates a control amount in the auxiliary air-fuel ratio control based on the output of the post-catalyst sensor; a revolution speed variation detection unit that detects a revolution speed variation of the engine; an abnormality determination unit that performs imbalance abnormality determination for determining whether an inter-cylinder air-fuel ratio imbalance abnormality has occurred based on a detected value of the revolution speed variation; and a guard range reduction unit that reduces a guard range of the control amount during the imbalance abnormality determination. | 08-16-2012 |
20120209498 | AIR-FUEL-RATIO IMBALANCE DETERMINATION APPARATUS FOR INTERNAL COMBUSTION ENGINE - An inter-cylinder air-fuel-ratio imbalance determination apparatus includes an air-fuel-ratio sensor in an exhaust passage of an engine. The air-fuel-ratio sensor functions as a limiting-current-type wide range air-fuel-ratio sensor when a voltage is applied, and functions as a concentration-cell-type oxygen concentration sensor when no voltage is applied. The determination apparatus causes the air-fuel-ratio sensor to function as the limiting-current-type wide range air-fuel-ratio sensor, and executes air-fuel ratio feedback control on the basis of the output value of the air-fuel-ratio sensor. When an imbalance determination parameter is obtained, the determination apparatus causes the air-fuel-ratio sensor to function as the concentration-cell-type oxygen concentration sensor, and obtains, as the imbalance determination parameter, a value corresponding to the differentiated value of the output value of the air-fuel-ratio sensor. The determination apparatus determines an inter-cylinder air-fuel-ratio imbalance state, when the absolute value of the imbalance determination parameter is greater than an imbalance determination threshold value. | 08-16-2012 |
20120215419 | CONTROLLER FOR INTERNAL COMBUSTION ENGINE - A controller for internal combustion engine has an intake cam for low-load operation and an intake cam for high-load operation. The controller switches the intake cam used to open/close an intake valve and changes the phase angle of each intake cam according to load on the internal combustion engine. The controller changes the phase angle at start of opening of intake valve by the intake cam for low-load operation in lag angle direction within a predetermined range as load on the internal combustion engine increases, and changes the phase angle at start of opening of intake valve by the intake cam for high-load operation in lead angle direction within the predetermined range as load on the internal combustion engine increases. Switching between the two intake cams is performed where the phase angles of the intake cams are controlled to predetermined phase angles on a lag angle side. | 08-23-2012 |
20120215420 | DIESEL FUEL INJECTION SYSTEM IN A MOTOR VEHICLE PROVIDED WITH A DIESEL ENGINE - A diesel fuel injection system in a motor vehicle provided with a diesel engine has a common rail and a filter arranged along a duct which delivers diesel to the common rail and houses a heater; the heater is activated by electronic control units so as to heat the filter in response to a activation signal, which is generated by an event leading to the opening of a driver side door of the motor vehicle. | 08-23-2012 |
20120221226 | METHOD FOR THE OPEN-LOOP CONTROL AND CLOSED-LOOP CONTROL OF AN INTERNAL COMBUSTION ENGINE - The invention relates to a method for the open-loop control and the closed-loop control of an internal combustion engine ( | 08-30-2012 |
20120226426 | Apparatus and Method for Controlling a Multi-Fuel Engine - A dual-fuel engine has a primary fuel supply and a secondary fuel supply, the primary and secondary fuels being arranged in use to mix with each other and with air for combustion in one or more cylinders of the engine. The supply of both the primary and secondary fuels is arranged to be actively managed in accordance with a desired engine performance characteristic by an electronic controller. In one arrangement the supply of a primary fuel is arranged to be actively reduced when a secondary fuel is supplied to the engine. | 09-06-2012 |
20120226427 | METHOD FOR DETERMINING A CONCENTRATION OF ALCOHOL IN A FUEL MIXTURE - A method for determining a concentration of alcohol in a fuel mixture, where a characteristic curve for a parameter describing the dynamics of an injector, by which the fuel mixture is injected in an internal combustion engine, is ascertained; and where the concentration of alcohol is determined in light of a course of the characteristic curve. The invention also relates to a method for operating an internal combustion engine and a system for determining a concentration of alcohol in a fuel mixture. | 09-06-2012 |
20120226428 | METHOD FOR THE OPEN-LOOP CONTROL AND CLOSED-LOOP CONTROL OF AN INTERNAL COMBUSTION ENGINE - The invention relates to a method for the open-loop control and the closed-loop control of an internal combustion engine ( | 09-06-2012 |
20120232771 | CONTROLLING FUEL INJECTION BASED ON FUEL VOLATILITY - A system according to the principles of the present disclosure includes a fuel volatility module, a temperature generation module, and a fuel control module. The fuel volatility module estimates a volatility of fuel provided to an engine based on an engine torque and an engine speed. The temperature generation module generates a temperature of an intake valve of the engine. The fuel control module selectively increases an amount of fuel provided to the engine based on the temperature of the intake valve, the engine torque, and the fuel volatility. | 09-13-2012 |
20120232772 | ADAPTIVE AIR CHARGE ESTIMATION BASED ON SUPPORT VECTOR REGRESSION - Examples of the present invention include air charge estimation models using linear programming support vector regression (LP-SVR). Air model parameters may be updated during operation of a vehicle, allowing the air model performance to be improved in the presence of part-to-part variation and part aging. | 09-13-2012 |
20120232773 | INTER-CYLINDER AIR-FUEL RATIO IMBALANCE DETERMINATION APPARATUS FOR AN INTERNAL COMBUSTION ENGINE - An inter-cylinder air-fuel ratio imbalance determination apparatus (determination apparatus) according to the present invention obtains, based on the output value of the air-fuel ratio sensor | 09-13-2012 |
20120239275 | ENGINE CONTROL SYSTEM WITH ACTUATOR CONTROL - An engine control apparatus works to determine target values of a plurality of combustion parameters which represent combustion states of fuel in a combustion engine and are needed to achieve required performances of the combustion engine, calculate a combustion parameter deviation that is a deviation of an actual value of each of the combustion parameters from the target value thereof, select at least one of controlled parameters correlating with the combustion parameters as a function of a degree of a selected one of the combustion parameter deviations for minimizing the selected one of the combustion parameter deviations. The controlled parameters are parameters for controlling operations of actuators working to control the combustion states of the combustion engine. The engine control apparatus controls the one of the controlled parameters, as selected by the controlled parameter selector, to minimize the selected one of the combustion parameter deviations. | 09-20-2012 |
20120239276 | FUEL PROPERTY DETERMINATION SYSTEM FOR INTERNAL COMBUSTION ENGINE - A fuel injection pressure at a timing at which an NOx concentration (combustion temperature) indicates a maximum value under the condition that a fuel injection timing is fixed to a first injection timing is recorded as a first NOx peak injection pressure. Similarly, a second NOx peak injection pressure is recorded under the condition that the fuel injection timing is fixed to a second injection timing. A cetane number and distillation property of fuel are determined on the basis of these NOx peak injection pressures. | 09-20-2012 |
20120253638 | METHOD FOR ADAPTING A FUEL/AIR MIXTURE FOR AN INTERNAL COMBUSTION ENGINE - A method for adapting a mixture for a pilot control process for setting a fuel/air mixture for operating an internal combustion engine. The method includes determining a current measuring point from an air and fuel quantity in which a predefined lambda is achieved, determining a current operating range in which the measuring point lies, determining a deviation of the measuring point from the operating point lying in the current operating range, determining a corrected operating point between the operating point and the measuring point, and determining corrected parameters of a parameterized relationship from the corrected operating point and the operating points and parameter values of the preceding adaptation step not lying in the current operating range, and permits adaptation of a mixture without separation of load/rotational speed ranges for adaptation of the offset and of the factor of the linear relationship of air quantity and fuel quantity. | 10-04-2012 |
20120253639 | APPARATUS OF ESTIMATING FUEL STATE - An apparatus extracts a main waveform component and a branch waveform component from a pressure waveform detected by a fuel pressure sensor. The main waveform component is caused by pressure change traveling in a main passage. The branch waveform component is caused by pressure change traveling in a branch passage. The apparatus calculates traveling speeds based on the components. Then, the apparatus estimates a main passage temperature based on a detected value of the fuel temperature sensor, the traveling speeds, the fuel pressure waveform and an average pressure. | 10-04-2012 |
20120253640 | FUEL INJECTION CONTROL APPARATUS OF INTERNAL COMBUSTION ENGINE - An auxiliary injection is carried out at an in-cylinder temperature at which a premixed combustion by the auxiliary injection is separatable into a low-temperature oxidation reaction and a high-temperature oxidation reaction, in a compression self-igniting internal combustion engine in which fuel injected into a cylinder from a fuel injection valve combusts in the cylinder, and that is configured to carry out an operation of fuel injection from the fuel injection valve. The operation of fuel injection includes at least a main injection and the auxiliary injection. The main injection causes a combustion mainly including a diffusion combustion in the cylinder. The auxiliary injection is carried out prior to the main injection and causes a combustion mainly including the premixed combustion in the cylinder. Specifically, an in-cylinder gas temperature (750K) is used as a reference, and the auxiliary injection is carried out before the in-cylinder gas temperature reaches 750K, so as to separate the low-temperature oxidation reaction and the high-temperature oxidation reaction from one another. This control makes the premixed combustion slow before a compression top dead center is reached, and ensures control of the premixed combustion in a temperature controlled manner in accordance with the transition of the in-cylinder gas temperature. This ensures unambiguous determination of the injection time of the auxiliary injection based on the in-cylinder temperature, and facilitates the attempt to simplify the fuel injection control. | 10-04-2012 |
20120265422 | Method for Controlling an Engine - A method for reducing a temperature of an engine component is disclosed. In one example, an air-fuel ratio provided to an engine is adjusted to reduce a temperature of an engine component. The approach may be useful for controlling temperature and emissions from a turbocharged engine. | 10-18-2012 |
20120277976 | CIRCUIT ARRANGEMENT FOR VEHICLE ECU - A circuit arrangement includes a vehicle ECU, a plurality of first sensors electrically connected with the ECU in a daisy-chain arrangement, and a plurality of second sensors electrically connected with the ECU in a daisy-chain arrangement. The ECU is configured to control a fuel injection system of a vehicle engine. Each of the plurality of first sensors is configured to operate at a first voltage and to sense a respective vehicle engine condition. Each of the plurality of second sensors is configured to operate at a second voltage, which is different than the first voltage, and to sense a respective vehicle engine condition. | 11-01-2012 |
20120277977 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE, CONTROL UNIT, COMPUTER PROGRAM PRODUCT, COMPUTER PROGRAM, AND SIGNAL SEQUENCE - A method is provided for operating an internal combustion engine that includes, but is not limited to ascertaining a possible instant of a stoppage of the internal combustion engine and injecting fuel to fill a cylinder of the internal combustion engine. The injection performed shortly before the instant of the stoppage of the internal combustion engine. | 11-01-2012 |
20120277978 | ENGINE WORKING MACHINE - An engine working machine that has an electronically controlled fuel injection system and a fuel tank disposed in an upper portion. The capacity of the fuel tank is effectively used and a complex structure is prevented while reducing the length of the fuel piping. An engine is disposed in a lower portion, and a fuel tank is disposed above the engine. A fuel pump is mounted on a bottom outside surface of the fuel tank, and disposed projecting on a side portion of the crankcase. An extended box is provided on a bottom surface of the fuel tank, and the fuel pump is mounted with a filter and a fuel intake port located inside the extended box. The fuel pump is housed in a pump case that is fixed to a bottom surface of the extended box. | 11-01-2012 |
20120283931 | APPARATUS FOR DETECTING IMBALANCE ABNORMALITY IN AIR-FUEL RATIO BETWEEN CYLINDERS - An apparatus for detecting imbalance abnormality in an air-fuel ratio between cylinders in a multi-cylinder internal combustion engine comprises a turbocharger, a bypass passage, a waist gate valve, an air-fuel ratio sensor, and a stepless transmission. The imbalance abnormality is detected based upon a variation degree in output of the air-fuel ratio sensor. The internal combustion engine and the stepless transmission are controlled in such a manner that an actual operating point of the internal combustion engine moves on a predetermined operating line in a coordinate system defined by an engine rotational speed and engine torque. The operating line is changed in such a manner that, when the actual operating point is outside of a waist gate valve opening region at the time of detecting the imbalance abnormality, the actual operating point moves into the waist gate valve opening region. | 11-08-2012 |
20120283932 | TWO-STROKE INTERNAL COMBUSTION ENGINE WITH VARIABLE COMPRESSION RATIO AND AN EXHAUST PORT SHUTTER AND A METHOD OF OPERATING SUCH AN ENGINE - A two-stroke internal combustion engine for varying the compression ratio and the area of an exhaust port of a cylinder includes at least one piston reciprocable within a cylinder, an exhaust port opened and closed by the piston during the reciprocal motion thereof, moveable shutter means for varying the effective area of the exhaust port, a compression ratio variation mechanism for varying a compression ratio of the cylinder, sensor means for measuring one or more operating characteristics of the engine and for generating signals corresponding thereto, and a control unit which processes the signals generated by the sensor means and controls the motion of the shutter means accordingly and controls the compression ratio variation mechanism to vary the compression ratio of the cylinder; wherein the engine can operate with a compression ratio in the range 30:1 to 50:1. | 11-08-2012 |
20120290192 | INTERNAL COMBUSTION ENGINE SYSTEM CONTROLLER - Provided is an internal combustion engine system controller, including a sub-feedback learning section, a state determining section, and a learning update-speed setting section. The state determining section determines, to which of at least three states including: (a) a stable state in which a fluctuating state of a sub-feedback learning value is stable; (b) an unstable state in which the fluctuating state greatly fluctuates; and (c) an intermediate state between the stable state and the instable state (may be referred to as sub-stable state), the fluctuating state corresponds. The learning update-speed setting section sets an update speed of the sub-feedback learning value in accordance with the result of determination by the state determining section. Further, the learning update-speed setting section suppresses the occurrence of hunting of the sub-feedback learning value. | 11-15-2012 |
20120290193 | Internal Combustion Engine Control Device - An internal combustion engine control device is provided which can accurately estimate intake pipe temperature behavior during transient time even in an internal combustion engine embedded with a variable valve or a turbocharger. The internal combustion engine control device estimates transient behavior of the intake pipe temperature, on the basis of a flow rate (dGafs/dt) of gas flowing into the intake pipe, a flow rate (dGcyl/dt) of gas flowing from the intake pipe, an intake pipe pressure Pin, and a temporal changing rate (dPin/dt) of the intake pipe pressure. The device performs knocking control during transient time, on the basis of the estimated transient behavior of the intake pipe temperature. | 11-15-2012 |
20120296551 | Fuel Injector Control System and Method to Compensate for Injector Opening Delay - A fuel injector control system including a fuel injector, a sensing device configured to provide a transition signal indicative of a fuel injector transition from the closed-state to the open-state, and a controller configured to determine an injector control signal based on the transition signal. The injector control signal closing time can be adjusted base on the transition signal and so compensate for injector opening delay due to, for example, a stuck closed fuel injector, cold temperatures, or low injector drive voltages. | 11-22-2012 |
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 |
20120296553 | SYSTEM AND METHOD FOR DETECTING A STUCK FUEL INJECTOR - A control system for an engine is presented. The control system can include a transition period waveform monitor module, a stuck fuel injector detection module, and a fuel injection control module. The transition period waveform monitor module measures an electrical signal of a fuel injector upon deactivation of the fuel injector. The stuck fuel injector detection module detects a stuck fuel injector when an accumulated deviation of the electrical signal from a parameterized estimated reference waveform is outside of a predetermined range. The fuel injection control module controls fuel injection in the engine based on the detection of the stuck fuel injector. | 11-22-2012 |
20120303244 | ADAPTATION CONTROL OF LEAN NOX TRAP REGENERATION WITH BIODIESEL DURING ENGINE TRANSIENT OPERATION - An engine is fueled with a fuel blend of diesel and bidiesel fuel. A feed forward fuel control term is provided corresponding to a 100 percent diesel fuel blend and a feedback fuel control term corrects for lambda deviations resulting in a final fuel control term. During regeneration of a lean Nox trap, the feed forward fuel control term is adapted with a factor as a function of the feed forward fuel control term and the final fuel control term. | 11-29-2012 |
20120310508 | SYSTEM AND METHOD FOR DETECTING FAILURES OF MASS AIRFLOW SENSORS IN A PARALLEL INTAKE ENGINE - A system for a parallel intake engine includes first, second, third, and fourth modules. The first module estimates a total mass air flow (MAF) into the engine based on a cross-sectional area of a throttle and a pressure ratio across the throttle. The second module estimates first and second MAFs through first and second induction paths, respectively, based on the estimated total MAF and a factor. The third module calculates first and second differences between the estimated first and second MAFs and first and second MAFs measured by first and second MAF sensors, respectively. The fourth module detects failures of the first and second MAF sensors based on the first and second differences and first and second thresholds, respectively. | 12-06-2012 |
20120316753 | EXHAUST GAS RECIRCULATION (EGR) SYSTEM - Various systems and methods are described for an exhaust gas recirculation (EGR) system coupled to an engine in a vehicle. One example method comprises, controlling an amount of EGR according to a minimum of a first EGR amount corresponding to a temperature of a first location and a second EGR amount corresponding to a condensate formation of a second location. | 12-13-2012 |
20120316754 | METHOD FOR OPERATING A SPARK-IGNITION, DIRECT-INJECTION INTERNAL COMBUSTION ENGINE - A spark-ignition, direct-injection internal combustion engine is coupled to an exhaust aftertreatment system including a three-way catalytic converter upstream of an NH3-SCR catalyst. A method for operating the engine includes operating the engine in a fuel cutoff mode and coincidentally executing a second fuel injection control scheme upon detecting an engine load that permits operation in the fuel cutoff mode. | 12-13-2012 |
20120316755 | CONTROL SYSTEM IMPLEMENTING POLARITY-SWITCHING WAVEFORMS - A control system is disclosed. The control system may have an armature, windings associated with the armature, and at least one power supply. The control system may also have a controller in communication with the windings and the at least one power supply. The controller may be configured to direct a first current waveform having a first polarity into the windings during a first period of time to move the armature in a desired manner, and to direct a second current waveform having a second polarity into the windings during a second period of time to move the armature in the desired manner. | 12-13-2012 |
20120323464 | MULTIPLE MODE THROTTLE CONTROL - A multiple mode throttle control having a plurality of different modes to command the speed of a utility vehicle engine. The modes include a normal mode in which an electronic engine control unit commands engine speed to vary based on the position of the throttle pedal; a stationary mode in which the electronic engine control unit commands the engine to run at a fixed speed while the utility vehicle remains stationary based on a setting of an operator control connected to the electronic control unit; and a mobile mode in which the electronic engine control unit commands engine speed to vary while the utility vehicle is moving based on the position of the throttle pedal but not to exceed a maximum engine speed based on the setting of the operator control. | 12-20-2012 |
20120330532 | Method Of Adjusting A Fuel Composition Estimate - A method is provided for adjusting a fuel composition estimate. The method generally uses a non-fuel related property to determine fuel composition. In some cases the method can be used after refueling and when the engine is operating without the benefit of oxygen sensor data, which can include evaluating data not based on characteristics of the fuel or exhaust from its combustion, such as engine torque variations while using the fuel. The method can include monitoring estimated engine torque to determine whether first variations in engine torque exceed a threshold, and, if so, modifying the previous estimate of fuel composition prior to the refueling event by a pre-determined amount. | 12-27-2012 |
20130006496 | SYSTEM AND METHOD FOR CALIBRATING ENGINE CRANKSHAFT-CAMSHAFT CORRELATION AND FOR IMPROVED VEHICLE LIMP-HOME MODE - A system for an engine includes an edge detection module and a correlation calibration module. The edge detection module (i) detects edges of a camshaft of the engine using a camshaft position sensor, and (ii) detects edges of a crankshaft of the engine using a crankshaft position sensor. The correlation calibration module calibrates a correlation between the crankshaft and the camshaft based on the detected edges of the crankshaft and the camshaft, respectively. | 01-03-2013 |
20130006497 | SKIP FIRE FUEL INJECTION SYSTEM AND METHOD - A system is disclosed for controlling fuel injectors in an internal combustion engine having a plurality of individual engine cylinders with associated pistons. The system includes at least one electronic engine control module configured to control the fuel injectors and having a memory with predetermined injector firing patterns stored therein. The firing patterns specify the fuel injectors to be fired and the fuel injectors to be skipped, in an engine cycle under conditions of reduced power demand. For each engine cycle in a succession of cycles under the reduced power demand condition, the engine control module determines the number of fuel injectors to be fired based upon the reduced power demand data, selects from the stored predetermined firing patterns a firing pattern specifying the injectors to be fired and the injectors to be skipped, and orders the specified fuel injectors to be fired sequentially in accordance with the selected predetermined firing pattern. | 01-03-2013 |
20130013170 | Method And Control Unit For Operating A Valve - A method for operating a valve, in particular a fuel injector of an internal combustion engine of a motor vehicle, in which an auxiliary variable is obtained as a function of at least one electrical operating variable of an electromagnetic actuator driving a component of the valve, in particular a valve needle, and in which the auxiliary variable is checked for the presence of a predefinable characteristic. A reference variable is ascertained as a function of the auxiliary variable, the auxiliary variable is modified as a function of the reference variable to obtain a modified auxiliary variable, and the modified auxiliary variable is checked for the presence of the predefinable characteristic. | 01-10-2013 |
20130018568 | CONTROL APPARATUS AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINEAANM Takada; NorifumiAACI Susono-shiAACO JPAAGP Takada; Norifumi Susono-shi JPAANM Honda; TomoakiAACI Gotenba-shiAACO JPAAGP Honda; Tomoaki Gotenba-shi JP - A control apparatus for an internal combustion engine includes: a first detector that detects air/fuel ratio in an exhaust passageway on an upstream of an exhaust gas-controlling catalyst in multi-cylinder internal combustion engine; a second detector that detects the air/fuel ratio in the exhaust passageway on a downstream of the catalyst; a feedback controller that executes a feedback control so that a first detected value based on the first detector output follows to be equal as a first predetermined target value and so that a second detected value based on the second detector output follows to be equal as a second predetermined target value that corresponds to the first predetermined target value during an initial state; an abnormality detection device configured to detect a variation abnormality in the air/fuel ratio among the cylinders; and a change device that changes the second predetermined target value when the variation abnormality is detected. | 01-17-2013 |
20130024091 | METHODOLOGY TO COMPENSATE THE EFFECT OF HUMIDITY AND ALTITUDE ON HCCI COMBUSTION - A method for controlling combustion in a spark-ignition direct-injection internal combustion engine includes monitoring an engine operating mode and an ambient parameter, determining a deviation of the ambient parameter relative to a nominal ambient parameter, determining a nominal desired engine operation parameter based on engine speed and load, determining and adjusted desired engine operation parameter based on the nominal desired engine operation parameter and said deviation of the ambient parameter, and controlling the engine based on the engine operating mode and one of the nominal desired engine operation parameter and adjusted desired engine operation parameter. | 01-24-2013 |
20130024092 | DEVICE FOR PREVENTING THE ENGINE FROM STALLING IN A VEHICLE EQUIPPED WITH A DIESEL INJECTION SYSTEM - A device is provided for preventing the engine from stalling in a vehicle equipped with a diesel injection system, particularly a common-rail injection system. The device comprises a volume flow control valve, a high-pressure fuel pump, a pressure control valve, one or more injectors and a control unit. The control unit carries out a pressure control by controlling the volume pressure control valve in the idle state of the engine in a first operating mode, monitors whether a working point is present at which a release of air from the fuel is carried out and, in the event such a working point is detected, initiates a second operating mode in which a pressure control is carried out by controlling the pressure control valve. | 01-24-2013 |
20130035840 | BLOCK HEATER DETECTION FOR IMPROVED STARTABILITY - A method of starting an internal combustion engine includes sensing a temperature of an engine coolant at an engine block of the internal combustion engine, and sensing a temperature of a secondary engine component remote from the engine block when the internal combustion engine is not running. A numerical difference between the temperature of the engine coolant and the temperature of the secondary engine component is calculated. A start parameter setting used to control the start of the internal combustion engine is adjusted based upon both the sensed temperature of the engine coolant and the numerical difference between the sensed temperature of the engine coolant and the sensed temperature of the secondary engine component. | 02-07-2013 |
20130041571 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A control device for an internal combustion engine switches an air-fuel ratio of an air-fuel mixture in a cylinder from a first air-fuel ratio leaner than stoichiometry for normal operation to a second air-fuel ratio richer than the stoichiometry. During a switching period from beginning to end of the switching, the control device carries out intake throttling to control the air-fuel ratio of the air-fuel mixture in the cylinder to a third air-fuel ratio richer than the first air-fuel ratio and leaner than the stoichiometry, while learning a correction value for a fuel injection amount. During the switching period, before the intake throttling is completed, the control device carries out such a post-injection as prevents injected fuel from being combusted and learns the correction value. After the intake throttling is completed, the control device carries out such an after-injection as allows the injected fuel to be incompletely combusted and learns the correction value. | 02-14-2013 |
20130046452 | MULTI-FUEL VEHICLE FUEL CONTROL SYSTEMS AND METHODS - A method for a multi-fuel vehicle includes: determining a first target amount of fuel to be injected for a combustion event of a combustion chamber of an engine; determining first and second fractions for the combustion event based on at least one of engine speed, engine load, and engine temperature; determining a second target amount of liquid fuel for the combustion event based on the first target amount and the first fraction; determining a third target amount of gaseous fuel for the combustion event based on the first target amount and the second fraction; selectively injecting a liquid fuel directly into the combustion chamber for the combustion event based on the second target amount and using a first fuel injector; and selectively injecting a gaseous fuel into a port of the combustion chamber for the combustion event based on the third target amount and using a second fuel injector. | 02-21-2013 |
20130054112 | APPARATUS FOR CONTROLLING AIR-FUEL RATIO OF INTERNAL-COMBUSTION ENGINE - An apparatus for controlling an air-fuel ratio of an internal-combustion engine includes an air-fuel ratio detector, a fluctuation signal generating device, an air-fuel ratio fluctuation device, a 0.5th-order frequency component strength calculator, a fluctuation frequency component strength calculator, a reference component strength calculator, and an imbalance fault determining device. The reference component strength calculator is configured to calculate strength of a reference component in accordance with strength of a first frequency component and strength of a second frequency component. The imbalance fault determining device is configured to make a determination of an imbalance fault in which air-fuel ratios of a plurality of cylinders vary beyond a tolerance limit on a basis of a relative relationship between strength of the 0.5th-order frequency component and the strength of the reference component. | 02-28-2013 |
20130054113 | METHOD FOR CONTROLLING AIR SYSTEM STATES IN AN INTAKE MANIFOLD OF AN INTERNAL COMBUSTION ENGINE - A method for controlling at least one air system state in an intake manifold of an internal combustion engine, at least one control variable which influences the at least one air system state being predefined with the aid of an actuator; at least one control variable limitation of the actuator is taken into account in the control. | 02-28-2013 |
20130054114 | AIR-FUEL RATIO CONTROL DEVICE OF INTERNAL COMBUSTION ENGINE - The invention relates to an air-fuel ratio control device of an internal combustion engine, comprising a plurality of means for independently introducing into each combustion chamber an exhaust gas discharged from combustion chambers to an exhaust passage. When at least one exhaust gas introduction means is under an exhaust gas introduction shortage state, a target value of an air-fuel ratio of a mixture gas is changed depending on whether an exhaust gas introduction control for introducing the exhaust gas into the combustion chamber by the exhaust gas introduction means is performed. | 02-28-2013 |
20130060449 | IMBALANCE RE-SYNCHRONIZATION CONTROL SYSTEMS AND METHODS - Fueling to one cylinder of an engine is selectively adjusted based on a correction associated with the cylinder. An instability module increments a counter value when the correction is equal to one of a first predetermined value and a second predetermined value and was previously equal to the other one of the first and second predetermined values. The instability module selectively generates a first indicator based on the counter value. A variance of imbalance values can be determined based on samples of an exhaust gas oxygen signal. Two variances are determined: one variance with adjustment based on the correction, one without adjustment based on the correction. A variance checking module selectively generates a second indicator based on the first and second variances. A re-synchronization module re-synchronizes the imbalance values with the cylinders, respectively, in response to generation of the first indicator and/or the second indicator. | 03-07-2013 |
20130060450 | Method and device for performing a control, in particular for use in a motor vehicle - A method for operating a boost pressure control in an engine system having a supercharged internal combustion engine, including the following: performing a boost pressure control based on a setpoint controller variable and an actual controller variable, ascertaining a setpoint controller variable from a provided setpoint boost pressure with a first and a second model, ascertaining an intermediate variable from a provided actual boost pressure with the first model, correcting the intermediate variable with a provided dynamic variable, which represents a dynamic change in the state of the engine system using a higher dynamics than the actual boost pressure, and ascertaining the actual controller variable from the corrected intermediate variable with the second model. | 03-07-2013 |
20130066535 | METHOD AND SYSTEM FOR SAMPLING INTAKE MANIFOLD PRESSURE - An engine system and method for improving sampling of a port throttle pressure sensor. In one example, the port throttle pressure sensor is sampled a plurality of times during a cylinder cycle and different engine operating conditions are determined from selected samples. The system and method may improve engine air-fuel control as well as engine diagnostics. | 03-14-2013 |
20130073181 | CONTROL APPARATUS AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - A control apparatus for an internal combustion engine includes at least one air-fuel ratio detection unit; a feedback control unit configured to determine a fuel injection amount for each of cylinders by performing air-fuel ratio feedback control using a feedback control amount; a learning unit configured to learn the feedback control amount so as to obtain a learned value, and to update the learned value at an update rate; an estimation unit configured to estimate a degree of imbalance in the air-fuel ratio among the cylinders based on a detected air-fuel ratio; an initialization unit configured to initialize the learned value when a deviation between the estimated degree of imbalance and a previous value is equal to or greater than a predetermined value; and an update rate change unit configured to increase the update rate, relative to a standard value after initialization of the learned value. | 03-21-2013 |
20130073182 | METHOD AND SYSTEM FOR IMPROVING FUEL ECONOMY AND CONTROLLING ENGINE EMISSIONS - An engine controller for an engine configured for improving fuel economy and decreasing negative emission characteristics. The engine controller is operatively coupled to the engine and configured to intercept angular position sensor signals and generate an adjustable angular position sensor signal and output the adjusted signal to the engine control module operatively coupled to the engine. The engine control module is configured to control the fuel injector for the engine and is responsive to the adjusted angular position sensor signal. The engine controller is operatively coupled to a hydrogen injection module configured to deliver hydrogen to the engine in conjunction with the operation of the engine controller. According to another aspect, the engine controller is configured to intercept valve actuator signals from the engine control module intended to control variable valve actuators in the engine. The engine controller includes a module configured to adjust or modify the valve actuator signals in response to changes in the angular position of the engine and output the adjusted valve actuator signals to control the variable valve actuators in the engine. | 03-21-2013 |
20130080029 | FAIL SAFE ELECTRONIC THROTTLE CONTROL PEDAL SENSOR - A system includes a pedal override module that receives a pedal position from an accelerator pedal position sensor, receives a pedal pressure from an accelerator pedal pressure sensor, compares the pedal position to the pedal pressure, and selectively outputs a pedal override signal based on the comparison between the pedal position and the pedal pressure. A throttle position control module controls a position of a throttle based on the pedal position and the pedal override signal. | 03-28-2013 |
20130080030 | SYSTEM AND METHOD FOR DETERMINING ENGINE CYLINDER PEAK OPERATING PARAMETERS - A peak value of an operating parameter of an internal combustion engine cylinder is determined during each of a series of engine cycles. An engine position signal produced by an engine position sensor is processed to determine engine position relative to a reference engine position. A combustion portion of a current engine cycle is partitioned into a number of side-by-side combustion packets each having a packet duration of a predetermined change in engine position. The engine position is monitored, and for each of the number of side-by-side combustion packets of the combustion portion of the current engine cycle, the operating parameter of the cylinder is estimated. The peak value of the operating parameter of the cylinder during the current engine cycle is determined as a maximum-valued one of the number of estimated operating parameters of the cylinder, and the peak value of the operating parameter is stored in memory. | 03-28-2013 |
20130080031 | DECELERATION FUEL CUTOFF CONTROL SYSTEMS AND METHODS - A system for a vehicle includes a rate of change module, a period estimation module, a deceleration fuel cutoff (DFCO) module, and an injection control module. The rate of change module determines a rate of change of an engine speed. While an engine is being fueled, the period estimation module determines an estimated period of a next DFCO event based on the rate of change of the engine speed. The DFCO control module selectively generates a DFCO signal based on the estimated period. The injection control module cuts off fuel to the engine when the DFCO signal is generated. | 03-28-2013 |
20130080032 | PRESSURE SENSOR DIAGNOSING METHOD AND COMMON RAIL FUEL INJECTION CONTROL APPARATUS - Disclosed is a common rail fuel injection control apparatus that is used in an engine that drives power equipment, an actual measurement temperature difference that is a difference between a pre-pressurization temperature of the fuel and a post-pressurization release temperature of the fuel is obtained, and it is determined that a pressure sensor is failed when an absolute value of a difference between a representative temperature difference set in advance as a difference between the pre-pressurization temperature of the fuel and the post-pressurization release temperature of the fuel, and the actual measurement temperature difference exceeds a predetermined threshold value. | 03-28-2013 |
20130085655 | Speed limiter - Provided is a speed limiter, wherein a vehicle speed is detected, and a speed limit displayed on a speed sign is detected based on an image captured by a front monitoring camera. A speed difference between the vehicle speed and the speed limit is calculated, and an accelerator sensitivity gain is set using the speed difference as a parameter. Then an accelerator opening degree is corrected with the accelerator sensitivity gain to obtain a pseudo accelerator opening degree. A target throttle opening degree is set based on the pseudo accelerator opening degree and an engine rpm. | 04-04-2013 |
20130085656 | METHOD FOR OPERATING A COMBUSTION ENGINE WHEN CHANGING FROM FULL ENGINE OPERATION TO PARTIAL ENGINE OPERATION - In a combustion engine, combustion chamber-specific deviations can be equalized by associating a specific adjustable air-fuel ratio with the individual combustion chambers. When changing from full engine operation to partial engine operation, the associated air-fuel ratios do not always remain optimal. A new air-fuel ratio, which is adjusted immediately when changing from full engine operation to partial engine operation, is then associated with the combustion chambers of a subgroup of combustion chambers to which an air-fuel mixture is applied in partial engine operation. The new individual air-fuel ratios can be easily computed, in particular, from the individual air-fuel ratios associated with full engine operation. | 04-04-2013 |
20130090834 | AIR-FUEL RATIO CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE AND METHOD FOR CONTROLLING AIR-FUEL RATIO - An air-fuel ratio control apparatus includes an air-fuel ratio detector, an oscillation signal generator, an air-fuel ratio oscillation device, a sum/difference frequency component intensity calculator, a decision parameter calculator, and an imbalance failure determination device. The sum/difference frequency component intensity calculator is configured to calculate, while the air-fuel ratio oscillation device is in operation, at least one of a component intensity of a difference frequency and a component intensity of a sum frequency. The decision parameter calculator is configured to calculate, according to at least one of the component intensity of the difference frequency and the component intensity of the sum frequency, a decision parameter to determine a degree of imbalance of an air-fuel ratio. The imbalance failure determination device is configured to determine an imbalance failure in which the degree of imbalance of the air-fuel ratio exceeds an allowable limit using the decision parameter. | 04-11-2013 |
20130090835 | CONSTRUCTION MACHINE - A construction machine storing a first torque diagram representing a region of a torque and a speed of the engine being able to be driven in a maximum torque region with respect to the engine speed and a second torque diagram in the first torque diagram, and controlling to change the engine speed on the second torque diagram by shifting from the first torque diagram to the second torque diagram based on an operation amount of an operation lever and/or a load applied and decrease the engine speed based on a decrease in load on the second torque diagram, the construction machine comprising: a controller stopping the engine control when a specific mode is selected and controlling so that the engine speed becomes a value in accordance with a setting amount of a fuel adjusting unit regardless of a change in the lever operation amount and/or the load applied. | 04-11-2013 |
20130096802 | METHOD AND DEVICE FOR ADAPTING ADAPTATION VALUES FOR THE CONTROL OF INJECTORS IN AN ENGINE SYSTEM HAVING MULTIPLE INJECTION TYPES - A method for adapting the adaptation values for the adaptation of fuel injection quantities of an internal combustion engine, to which fuel is supplyable via a mixed operation of two injection types, a first adaptation value for adapting a first injection quantity specification according to which the internal combustion engine is operated by a first injection type, and a second adaptation value for adapting a second injection quantity specification according to which the internal combustion engine is operated by a second injection type, the adaptation values being each adapted in defined, not overlapping adaptation ranges as a function of the operating state, at least one of the adaptation ranges including operating states in which fuel is supplied to the internal combustion engine via both injection types. | 04-18-2013 |
20130096803 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - To provide a control device for an internal combustion engine that can optimally control a plasma ignition operation independent of fuel type. In a control device | 04-18-2013 |
20130103286 | SYSTEM AND METHOD FOR SUPPLYING FUEL TO AN ENGINE VIA MULTIPLE FUEL PATHS - A system and method for supplying fuel to an engine is disclosed. In one example, a first controller supplies injector commands to a second controller via an asynchronous serial communication bus. The system may reduce the complexity of supplying two or more fuels to an engine. | 04-25-2013 |
20130110376 | METHOD AND SYSTEM FOR ENGINE CONTROL | 05-02-2013 |
20130110377 | Fuel Injection Apparatus for Internal Combustion Engine | 05-02-2013 |
20130110378 | Control Device of Engine | 05-02-2013 |
20130116911 | CONTROL APPARATUS AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - A control apparatus for an internal combustion engine including a plurality of combustion chambers and a catalyst that cleans exhaust gases includes a controller configured to execute individual air-fuel ratio control in which an air-fuel ratio of an air-fuel mixture generated in at least one non-specific combustion chamber is controlled such that an average air-fuel ratio of the engine matches a target air-fuel ratio, based on an air-fuel ratio of an air-fuel mixture generated in at least one specific combustion chamber, the controller being configured to execute catalyst temperature increase control in which a temperature of the catalyst is increased, and the controller being configured to prohibit execution of the individual air-fuel ratio control when the catalyst temperature increase control is executed. | 05-09-2013 |
20130116912 | FUEL INJECTOR CONTROL ADAPTATION METHOD - In a method for adapting an electric control of a fuel injector with a nozzle needle, with which fuel is metered for injection into a combustion chamber of an internal combustion engine, wherein a momentary operating state of the internal combustion engine is monitored and the electric control is adapted in dependence thereon, the momentary operating state is monitored based on a pressure prevailing in the respective combustion chamber, wherein an actual work value of a cylinder is determined based on the measured pressure, the determined actual work value is compared with a target work value assigned to the momentary operating state, and the adaptation of the electric control of the respective fuel injector is carried out dependent on the target-actual comparison of the momentary work of the respective combustion chamber and the lift of the nozzle needle of the fuel injector is corrected dependent on the target—actual comparison. | 05-09-2013 |
20130124067 | METHODS AND SYSTEMS FOR ENGINE STARTING - Methods and systems are provided for controlling a vehicle system including an engine that is selectively deactivated during engine idle-stop conditions and selectively reactivated during engine restart conditions. One example method comprises, during an engine restart from an idle stop, performing a first combustion event in a cylinder with a piston at an engine crankshaft position that is after a crankshaft position at which said cylinder's exhaust valve opens, and before a crankshaft position at which the cylinder's intake valve closes, during a cycle of said cylinder. In this way, inaccuracies in cylinder aircharge estimation may be reduced, thereby also reducing air-fuel ratio errors and improving the quality and repeatability of engine restarts. | 05-16-2013 |
20130131959 | STARTING CONTROL DEVICE AND STARTING CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - When a fuel oil leakage from an injector during a stop of an engine is large and a fuel oil leakage determination condition is satisfied, an intake air flow rate is increased and then the engine is started. Through such control, while the engine is cranked at the time of a start, it is possible to early scavenge an air-fuel mixture having a high concentration of HC, and it is possible to optimize an air-fuel ratio (set an air-fuel ratio to an appropriate value within a combustible range) at the time of a start of the engine. As a result, a combustion state gets better, torque at the time of a start of the engine increases, and the startability of the engine improves. | 05-23-2013 |
20130131960 | METHOD AND SYSTEM FOR COMPENSATING ENGINE THERMAL CONDITIONS - A method for compensating for thermal transient conditions of an engine that can cause valve growth or contraction is disclosed. In one example, the method provides cylinder air amount compensation during non-blow-through and blow-through conditions. The approach may improve cylinder air amount estimates, thereby improving engine emissions. | 05-23-2013 |
20130131961 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - The present invention provides a control device applied to an internal combustion engine having a supercharger and a control value. The supercharger contains an opening-area control member that changes an amount of energy of the exhaust gas entered into the supercharger by controlling an opening-area of an approach zone. The control valve changes an amount of energy of the exhaust gas entered into the supercharger by controlling a valve-opening degree. The control device has a control means that gives an instruction to the opening-area control member so as to change the opening-area of the approach zone based on a target difference in the valve-opening degree and a parameter relating to a response-time length, when an instruction is given to the control valve at an predetermined instruction time point so as to change the valve-opening degree by the target difference. | 05-23-2013 |
20130138325 | METHOD OF CONTROLLING LOW-PRESSURE FUEL PUMP FOR GDI ENGINE - A method of controlling a low-pressure fuel pump for a GDI engine includes setting predetermined driving conditions that affect a drivability of the GDI engine in situations that are generated in a vehicle in which the GDI engine is mounted, open-loop controlling the low-pressure fuel pump when one or more of the predetermined driving conditions occur, and when none of the predetermined driving conditions occurs, close-loop controlling the low-pressure fuel pump according to a signal from a fuel pressure sensor such that a target fuel pressure provided from an engine controller is pursued. | 05-30-2013 |
20130138326 | Air/Fuel Ratio Controller and Control Method - An air/fuel ratio controller ( | 05-30-2013 |
20130138327 | FUEL INJECTION CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - An object of the invention is to provide a technology that enables to make the feed pressure as low as possible without inviting a misfire or a deviation of the air-fuel ratio, in a fuel injection control system for an internal combustion engine equipped with a low pressure fuel pump and a high pressure fuel pump. According to the invention, to achieve the object, in a fuel injection control system for an internal combustion engine in which fuel discharged from a low pressure fuel pump is supplied to a fuel injection valve with its pressure boosted by a high pressure fuel pump, while a lowering process of lowering feed pressure or the discharge pressure of a the low pressure fuel pump, the lowering process is suspended and restarted with reference to the tendency of change in an integral term used in a proportional-integral control of the duty cycle of the high pressure fuel pump. | 05-30-2013 |
20130144507 | LOW PRESSURE FUEL PUMP CONTROL METHOD OF GDI ENGINE - A low pressure fuel pump controlling method for a fuel feeding system of a GDI engine that includes a low pressure system and a high pressure system including controlling the low pressure fuel pump against various problems that may occur during the driving of the engine by variable control of the low pressure fuel pump of the low pressure system for the improvement of fuel efficiency of a vehicle. In various situations, the method drives the low pressure fuel pump under a relatively higher pressure than the fuel efficiency pressure. | 06-06-2013 |
20130144508 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE - Methods and apparatus for operating an internal combustion engine are provided. The engine has an engine block defining a cylinder accommodating a reciprocating piston coupled to rotate a crankshaft, a fuel injector for injecting fuel inside the cylinder, and a crank position sensor positioned proximal to the crankshaft. A method includes commanding the fuel injector to perform a test fuel injection with a predetermined energizing time and using the crank position sensor to determine a crankshaft acceleration signal during the test fuel injection. The crankshaft acceleration signal is filtered and a value of an amplitude of a fundamental frequency component of the filtered crankshaft acceleration signal is determined. A correction factor of the predetermined energizing time is determined based on a difference between the determined value of the amplitude and a preset value thereof. The correction factor is used to correct an energizing time of subsequent fuel injections. | 06-06-2013 |
20130151117 | METHOD OF DETERMINING WATER CONTENT OF ETHANOL FOR FFV AND CORRECTING FUEL QUANTITY BASED ON WATER CONTENT - A method of determining the water content of ethanol for an FFV and correcting fuel quantity based on the water content, which verifies whether an oxygen sensor is normal or abnormal, and it is determined whether ethanol learning conditions have been satisfied. It is determined whether learned concentration of ethanol is 100%. If the oxygen sensor is normal, the ethanol learning conditions are satisfied, and the ethanol concentration is 100%, it is determined that water is contained in the ethanol if a quantity of fuel learned by the oxygen sensor is greater than a predetermined reference value. If it is determined that water is contained in the ethanol, water content corresponding to the learned quantity of fuel is calculated from a map of water contents correlated with learned fuel quantities. | 06-13-2013 |
20130151118 | AIR-FUEL RATIO CONTROL APPARATUS, AND CONTROL METHOD, OF HYBRID POWER UNIT - The invention relates to an air-fuel ratio control apparatus of a hybrid power unit that selectively executes a first mode in which a ratio of a period during which an internal combustion engine is operated is relatively small, and a second mode in which the ratio of the period during which the internal combustion engine is operated is relatively large. This air-fuel ratio control apparatus executes a target air-fuel ratio correction when a difference among air-fuel ratios in a plurality of combustion chambers exists or is greater than a predetermined difference. An air-fuel ratio correction amount that is a correction amount for the target air-fuel ratio by the target air-fuel ratio correction is set according to whether operational control of the internal combustion engine according to the first mode is being executed or whether operational control of the internal combustion engine according to the second mode is being executed. | 06-13-2013 |
20130158836 | MACHINE THROTTLE SYSTEM - A machine throttle system according to an embodiment of the present disclosure includes a power system configured to operate at different speeds. The power system is coupled to a first throttle device and a second throttle device. A control module is communicatively coupled to the power system, the first throttle device, and the second throttle device. The control module is configured to cause the power system to operate at a first speed in response to the first throttle device being set to a level. The control module is also configured to cause the power system to increase in speed in response to the second throttle device when the first throttle device level is set below a predetermined value. The control module is further configured to cause the power system to decrease in speed in response to the second throttle device when the first throttle device level is set at or above the predetermined value. | 06-20-2013 |
20130158837 | VARIABLE-IGNITION DIESEL-GASOLINE DUAL FUEL POWERED COMBUSTION ENGINE, SYSTEM, AND METHOD FOR CONTROLLING OF THE SAME - A variable ignition diesel-gasoline dual fuel powered combustion engine can select spark ignition (SI) or compression ignition (DI) depending on the engine's operating range. The engine may include a cylinder block formed of at least one cylinder each being connected to an air intake manifold supplying air or a gasoline fuel-mixed air and an exhaust manifold exhausting an exhaust gas after combustions; and an ECU controlling the combustion modes. The ECU is configured to judge the engine's operating ranges of an engine depending on the speed and load of the engine, and when the range is the high load range, only the diesel fuel is combusted, and when the range is the low load range, only the gasoline fuel is combusted, and when the range is between the high load range and the low load range, the diesel and gasoline fuels are mixed and combusted. | 06-20-2013 |
20130158838 | Device to Increase Fuel Economy - This invention provides a device for increasing fuel economy which allows manual or automatic shut off of an automobile engine under a first set of circumstances and restarting the engine under a second set of circumstances as well as control of the gear ratio selected by an automatic transmission and the rate of fuel delivery to the engine. | 06-20-2013 |
20130158839 | METHOD FOR OPERATING A MULTI-FUEL INTERNAL COMBUSTION ENGINE BY MEANS OF TWO CONTROL UNITS, AND MULTI-FUEL INTERNAL COMBUSTION ENGINE WHICH OPERATES IN ACCORDANCE WITH THE METHOD ACCORDING TO THE INVENTION - A method for operating a multi-fuel internal combustion engine in which a plurality of control units are used. The system is easily scalable and adaptable to internal combustion engines with different numbers of cylinders, wherein the number of cylinders is not limited by the control unit structure. | 06-20-2013 |
20130166173 | VEHICLE CONTROL APPARATUS - Disclosed is a vehicle control apparatus that can concurrently achieve an improved drivability and an excellent restart performance of an internal combustion engine. The vehicle control apparatus includes an eco-run system that automatically stops the engine when an automatic stop condition is established and restarts the engine when a restart condition is established, a throttle motor that opens and closes a throttle valve adjusting air amount to be sucked into the engine, and a vehicle speed sensor that detects the vehicle speed. The vehicle control apparatus is adapted to control the throttle motor to enlarge the throttle valve opening degree in response to the higher vehicle speed, according to the vehicle speed information from the vehicle speed sensor (Step S | 06-27-2013 |
20130166174 | AIR-FUEL RATIO CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE FOR OUTBOARD MOTOR, AIR-FUEL RATIO CONTROL METHOD, AND PROGRAM PRODUCT - An air-fuel ratio control device has an open loop controller which controls an air-fuel ratio to be a target air-fuel ratio, a feedback controller that shifts the target air-fuel ratio to a logical air-fuel ratio, and feedback controls the air-fuel ratio to be the logical air-fuel ratio by using a feedback correction coefficient determined based on an output of an O | 06-27-2013 |
20130166175 | SENSOR AND CONTROL DEVICE - A sensor may be configured to be disposed in a fuel tank. The sensor may comprise a density detecting unit and a temperature detecting unit. The density detecting unit may be configured to detect a density of a specific substance included in fuel in the fuel tank. The temperature detecting unit may be configured to be located below the density detecting unit and detect a temperature of the fuel. | 06-27-2013 |
20130166176 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - The present invention relates to a control device for an internal combustion engine including a first control subject ( | 06-27-2013 |
20130166177 | METHOD AND DEVICE FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE - The invention relates to a method for stopping an internal combustion engine, wherein an amount of air which is supplied via an air metering device of the internal combustion engine, in particular a throttle flap ( | 06-27-2013 |
20130173139 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A control device for an internal combustion engine includes a unit for performing precorrection of an intake air quantity immediately after engine startup on the basis of a change value in the intake air quantity immediately after the beginning of cranking, and a correction method switching unit for subsequently switching to precorrection of the intake air quantity corresponding to an accelerator pedal stroke on the basis of the intake air quantity. | 07-04-2013 |
20130184969 | AIR/FUEL IMBALANCE MONITOR - Systems and methods for monitoring cylinder air/fuel imbalances are provided. In one example approach, a method comprises, identifying a cylinder with a potential air/fuel imbalance based on crankshaft accelerations generated by a series of rich, lean, and stoichiometric conditions in the cylinder while keeping the engine at stoichiometry. | 07-18-2013 |
20130184970 | ENGINE REMOTE START CONTROL METHOD AND SYSTEM - A method is provided and may include monitoring operation of an engine of a vehicle, determining if the engine is started, and determining if the engine was started via an ignition or via a remote signal. The method may further include controlling operation of the engine at a first temperature if the engine was started via the ignition and controlling operation of the engine at a second temperature—different than the first temperature—if the engine was started via the remote signal. The second temperature may be higher than the first temperature to increase a temperature of coolant circulating within the engine. | 07-18-2013 |
20130197781 | METHOD TO COMPLETE A LEARNING CYCLE OF A RECURSIVE LEAST SQUARES APPROXIMATION - A method to control a non-linear system includes operating a learning cycle to approximate characteristics of the system and, once the learning cycle is complete, operating the system based upon the characteristics. The learning cycle includes monitoring operation of the system, approximating the characteristics of the system with a recursive least squares approximation based upon the monitored operation, comparing variance of the operation to a threshold variance, and completing the learning cycle based upon the variance exceeding the threshold variance. | 08-01-2013 |
20130197782 | AIR-FUEL RATIO IMBALANCE DETERMINATION APPARATUS AND AIR-FUEL RATIO IMBALANCE DETERMINATION METHOD - An air-fuel ratio imbalance determination apparatus for a multi-cylinder internal combustion engine includes an air-fuel ratio sensor with a catalyst layer disposed in an exhaust passage of the multi-cylinder internal combustion engine; and a control unit configured: to perform determination regarding an air-fuel ratio imbalance state among cylinders of the multi-cylinder internal combustion engine based on an amount of change per unit time in an air-fuel ratio detected by the air-fuel ratio sensor; to execute an air-fuel ratio enrichment control using an air-fuel ratio enrichment amount; and to correct a learned imbalance value when the air-fuel ratio enrichment amount is smaller than a predetermined determination threshold value in a case where an engine operation state is in an imbalance learning range during execution of the air-fuel ratio enrichment control. | 08-01-2013 |
20130197783 | AIR-FUEL RATIO IMBALANCE DETECTING DEVICE AND AIR-FUEL RATIO IMBALANCE DETECTING METHOD FOR INTERNAL COMBUSTION ENGINE - An air-fuel ratio imbalance detecting device for an internal combustion engine, which detects a rich imbalance in air-fuel ratio among a plurality of cylinders on the basis of a variation per unit time in air-fuel ratio that is detected by an air-fuel ratio sensor provided in an exhaust passage of the internal combustion engine, includes an electronic control unit that normalizes the variation per unit time in air-fuel ratio with a constant associated with a rotation speed and load factor of the internal combustion engine and that, when the normalized value is smaller than a predetermined threshold, determines that a rich imbalance in air-fuel ratio has been detected among the cylinders. | 08-01-2013 |
20130204510 | METHOD FOR INFLUENCING THE THERMAL BALANCE OF AN INTERNAL COMBUSTION ENGINE - A method for reducing the thermal load of an internal combustion engine without substantially reducing its power output is described. The method includes adjusting an engine air-fuel ratio responsive to one or more of a charge air over-temperature, a coolant over-temperature and an engine efficiency parameter. | 08-08-2013 |
20130204511 | AIR-FUEL RATIO IMBALANCE DETECTING DEVICE AND AIR-FUEL RATIO IMBALANCE DETECTING METHOD FOR INTERNAL COMBUSTION ENGINE OF VEHICLE - When a detected value for detecting a rich imbalance in air-fuel ratio among cylinders in a state where an intake air amount of an engine falls within a low amount region is lower than a first threshold corresponding to the intake air amount and is higher than or equal to a second threshold corresponding to the intake air amount, an HV-ECU controls the engine such that the intake air amount falls within a high amount region, and controls a motor generator such that an electric power corresponding to a power increase amount is consumed. When the intake air amount falls within the high amount region, the HV-ECU detects a rich imbalance in air-fuel ratio among the cylinders by comparing the detected value with a third threshold corresponding to the intake air amount. | 08-08-2013 |
20130211692 | AIR-FUEL RATIO CONTROL APPARATUS AND AIR-FUEL RATIO CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE MOUNTED ON HYBRID VEHICLE - A hybrid vehicle executes intermittent operation for stopping an operation of an internal combustion engine and thereafter resuming the operation in response to an operating state. An air-fuel ratio control apparatus executes air-fuel ratio feedback control for bringing an air-fuel ratio of air-fuel mixture supplied to the engine on the basis of an output of an upstream air-fuel ratio sensor and an output of a downstream air-fuel ratio sensor into coincidence with a target air-fuel ratio. The air-fuel ratio control apparatus acquires a catalyst parameter that indicates a state of the catalyst at a start of the engine through intermittent operation. The air-fuel ratio control apparatus substantially corrects the target air-fuel ratio in response to the acquired catalyst parameter in a predetermined period after a start of the engine through intermittent operation, and learns a sub-feedback amount that is calculated using the output of the downstream air-fuel ratio sensor. | 08-15-2013 |
20130226436 | CONTROL DEVICE OF INTERNAL COMBUSTION ENGINE - When alcohol mixing fuel is supplied to an internal combustion engine, an intake air flow rate is detected and a basic amplitude amount α of an upstream target air-fuel ratio abyfr corresponding to this detected intake air flow rate is calculated. Next, alcohol concentration in the fuel (in more detail, ethanol concentration Cetha) and a cooling water temperature (or an intake air temperature) are detected, hydrogen concentration Ch in a mixing exhaust gas is calculated based on the detected ethanol concentration Cetha and the detected cooling water temperature (or the detected intake air temperature) amplitude gain β corresponding to the calculated hydrogen concentration is calculated and finally, an amplitude amount (α×β) of the upstream target air-fuel ratio is calculated. | 08-29-2013 |
20130245918 | EXHAUST SYSTEM AND METHOD FOR CONTROLLING TEMPERATURE OF EXHAUST GAS IN AN EXHAUST SYSTEM - In one exemplary embodiment of the invention, an internal combustion engine includes a fuel system in fluid communication with a cylinder to direct a fuel flow to be mixed with air in the cylinder and an exhaust system in fluid communication with the cylinder to receive an exhaust gas produced by the combustion process, wherein the exhaust system includes an oxidation catalyst, a particulate filter downstream of the oxidation catalyst. The system also includes a control module that determines an amount of energy to be provided by at least one of: a post-injection process, hydrocarbon injector, and heating device, wherein the amount of energy is based on a desired temperature at a selected location in the exhaust system, an exhaust gas flow rate, a temperature of the received exhaust gas, a flow rate and temperature of the exhaust gas at the inlet of the oxidation catalyst. | 09-19-2013 |
20130253801 | METHOD AND SYSTEM FOR ENGINE AIR CONTROL - Methods and systems are provided for conditioning a throttle command so that, on average, a difference between an actual airflow rate and a commanded airflow rate is substantially zero. A commanded throttle position is modified with a correction factor to also reduce a throttle angle error. By reducing engine air disturbances, engine performance is improved. | 09-26-2013 |
20130253802 | INTER-CYLINDER AIR-FUEL RATIO IMBALANCE DETECTION APPARATUS FOR INTERNAL COMBUSTION ENGINE - An air-fuel ratio imbalance detection apparatus includes an air-fuel ratio sensor that is arranged in an exhaust passage of an internal combustion engine and that includes an electrode and a diffusion layer provided on the electrode; an estimating unit configured to estimate or detect an output variation amount that is an amount of variation in an output of the air-fuel ratio sensor due to an influence of a pressure pulsation of exhaust gas from the internal combustion engine; and a determination unit configured to determine whether there is an air-fuel ratio imbalance among cylinders of the internal combustion engine, on the basis of the output variation amount and a determination value based on the output of the air-fuel ratio sensor. | 09-26-2013 |
20130253803 | FUEL-BASED INJECTION CONTROL - Systems and methods of operating an engine with a varying fuel composition. In one example, a split injection is performed during engine cranking with at least some fuel injected in the intake stroke and some fuel injected in the compression stroke. Further, a split ratio of the injection is adjusted based on the alcohol content of the injected fuel. | 09-26-2013 |
20130261933 | METHOD FOR THE INJECTION COMPUTATION FOR AN INTERNAL COMBUSTION ENGINE - A method for the injection computation for an internal combustion engine, in particular for a gasoline range extender engine. This includes ascertaining an adaptation factor, which represents fuel aging, from a model of the fuel and a fuel outgassing via a tank vent and adaptation of a fuel injection quantity and/or a fuel injection time using the adaptation factor. | 10-03-2013 |
20130261934 | APPARATUS FOR DETERMINING AN AIR-FUEL RATIO IMBALANCE AMONG CYLINDERS OF AN INTERNAL COMBUSTION ENGINE - An apparatus for determining an air-fuel ratio imbalance among cylinders based on an output value of an air-fuel ratio sensor, an imbalance determination parameter which becomes larger or smaller as a difference among air-fuel ratios becomes larger, and performs determining an air-fuel ratio imbalance among cylinders based on a result of a comparison between the imbalance determination parameter and a imbalance determination threshold. The determining apparatus calculates a purge correction coefficient which compensates for a change in the air-fuel ratio due to an evaporated fuel gas which is generated in a fuel tank, while the evaporated fuel gas is being introduced into an intake passage, and corrects a fuel injection amount with the purge correction coefficient FPG. | 10-03-2013 |
20130268177 | INDIVIDUAL CYLINDER FUEL AIR RATIO ESTIMATION FOR ENGINE CONTROL AND ON-BOARD DIAGNOSIS - A method of estimating the individual fuel air ratio richness of an individual cylinder in an engine by utilizing a single oxygen sensor at the confluence of a plurality of exhaust runners. The method provides for the use of a wide range or switching oxygen sensor at the confluence of a plurality of exhaust runners. | 10-10-2013 |
20130268178 | SYSTEM AND METHOD FOR MONITORING AN ENGINE AND LIMITING CYLINDER AIR CHARGE - Methods and systems for monitoring an internal combustion engine are disclosed. In one example, output of a temperature sensor is converted into a fuel pressure variable to determine if fuel system components are operating as desired and cylinder air charge may be limited if degradation is determined. The methods and systems may reduce fuel system cost while also providing redundant system data. | 10-10-2013 |
20130275025 | SYSTEM AND METHOD FOR CONTROLLING A HEATED FUEL INJECTOR IN AN INTERNAL COMBUSTION ENGINE - A system, a controller, and a method for controlling a fuel injector during start-up of a fuel injected internal combustion engine. The fuel injector has a heater element configured to heat liquid fuel, such as gasoline, ethanol, gasoline/alcohol blends, diesel, or JP-8 within the fuel injector and indicate heater temperature. The controller is configured to estimate a fuel temperature based on the heater temperature, determine a crankshaft angle at which to initiate an injection event based on the fuel temperature, and initiate the injection event at the determined crankshaft angle. The controller is further configured to determine injection duration based on the fuel temperature and operate the fuel injector according to the determined injection duration. The controller may delay the injection event until the fuel temperature reaches a fuel temperature threshold. The injection event may be a priming injection event, cranking injection event, or running injection event. | 10-17-2013 |
20130275026 | Common Rail System Fault Diagnostic Using Digital Resonating Filter - A common rail fuel system diagnostic algorithm is executed by an engine control and real time to detect and identify a faulty fuel system component. Rail pressure data is processed through a digital resonating filter having a resonance frequency corresponding to a fault signature. A peak magnitude and phase of the output from the digital resonating filter reveals a degradation level of a fuel injector, and a phase of the output identifies which fuel injector is faulted. | 10-17-2013 |
20130275027 | Speed Change System for Work Vehicle - A speed change system for work vehicle having a continuously variable transmission device selects a first change gear ratio which is set larger than a smallest change gear ratio, when an engine rotational speed is a first set rotational speed which is set equal or close to an idling rotational speed of an engine; retains the change gear ratio of the continuously variable transmission device at the smallest change gear ratio, when the engine rotational speed is equal to or above a second set rotational speed set on a high-speed side relative to the first set rotational speed; and makes the change gear ratio of the continuously variable transmission device larger between the first change gear ratio and the smallest change gear ratio, as the engine rotational speed at that moment becomes lower, when the engine rotational speed is between the first and second set rotational speeds. | 10-17-2013 |
20130282259 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE WITH SUPERCHARGER - A control apparatus for a supercharged internal combustion engine, which can achieve a target torque accurately even if the target torque contains a high-frequency vibration component. The control apparatus determines a target air quantity and a target boost pressure from a target torque, operates an actuator for air quantity control according to the target air quantity, and operates an actuator for boost pressure control according to the target boost pressure. The target torque is formed to contain a low-frequency torque component that is set at all times based on a torque requirement from a driver and a high-frequency torque component that is set as necessary for a specific type of vehicle control. When the target torque contains only the low-frequency torque component, the target boost pressure is formed using a pressure component corresponding to the low-frequency torque. | 10-24-2013 |
20130289848 | OXYGEN SENSOR OUTPUT CORRECTION SYSTEMS AND METHODS - An oxygen sensor system for a vehicle includes a pump control module, a correction module, and a fuel control module. While fueling of an engine is cut off, the pump control module selectively turns ON an air pump that pumps ambient air into an exhaust system of the vehicle upstream of a universal exhaust gas oxygen (UEGO) sensor and a catalyst. The correction module receives an output of the UEGO sensor, selectively determines a correction for the output of the UEGO sensor when the air pump is ON and the fuel is cut off, and adjusts the output of the UEGO sensor based on the correction to produce a corrected output. The fuel control module, during fueling of the engine, selectively controls the fueling based on the corrected output. | 10-31-2013 |
20130289849 | COMBUSTION CONTROL DEVICE AND METHOD FOR DIESEL ENGINE - A diesel engine | 10-31-2013 |
20130297181 | ADAPTIVE ENGINE CONTROL IN RESPONSE TO A BIODIESEL FUEL BLEND - A method for operating a compression-ignition engine includes controlling an engine fueling, a compressor boost pressure, and an EGR content in a cylinder charge to maintain engine operation in response to a biodiesel blend ratio of a biodiesel fuel blend. | 11-07-2013 |
20130297182 | COLD START ENGINE CONTROL SYSTEMS AND METHODS - A control system includes a starter control module, a mode setting module, a throttle control module, and a fuel control module. The starter control module initiates cranking of a spark ignition direct injection (SIDI) engine in response to user actuation of an ignition switch. The mode setting module sets a mode of operation to a coldstart mode when an engine coolant temperature is less than a predetermined temperature during the cranking. The throttle control module allows a throttle valve to be biased to a predetermined open position when the SIDI engine is off and, in response to the setting of the mode to the coldstart mode, selectively closes the throttle valve relative to the predetermined open position during the cranking. The fuel control module, in response to the setting of the mode to the coldstart mode, disables direct injection of fuel for a first combustion event during the cranking. | 11-07-2013 |
20130297183 | METHOD OF OPERATING AN INTERNAL COMBUSTION ENGINE WITH DIRECT FUEL INJECTION AND LOW NOx EMISSIONS - In an operating method for an internal combustion engine with direct fuel injection including a plurality of combustion chambers, in particular a direct-injection gasoline engine for a motor vehicle, wherein the operating method comprises low-NOx combustion (NAV) and uses a plurality of partial operating modes, wherein, in a NAV partial operating mode, water is injected into the respective combustion chamber, and, during said NAV partial operating mode, at an ignition point (ZZP), a largely homogeneous, lean fuel/exhaust gas/air mixture having a combustion air ratio of λ≧1 is spark ignited by means of an ignition device so as to initiate flame front combustion (FFV) with a transition to a controlled auto-ignition (RZV). The injection of water permits the NAV partial operating mode to be stably implemented even at high engine loads and speeds. | 11-07-2013 |
20130297184 | Determining Outgassing Of A Fuel From A Lubricant Within An Internal Combustion Engine And Lambda Value Adaptation Based On The Determined Outgassing Of Fuel - A method for determining the quantity of outgassing of a fuel from a lubricant located in an intake section housing of an internal combustion engine may include (a) setting a first coil current through the housing, (b) measuring a first output value of a lambda controller, (c) setting a second coil current through the housing, the second coil current having a different current strength than the first coil current, (d) measuring a second output value of the lambda controller and (e) determining the quantity of outgassing of the fuel based on the measured first and second output values. In addition, a method for adapting a lambda value for a fuel/air mixture to be burnt in an internal combustion engine during a lower load range may include the above-mentioned method of determining the quantity of outgassing of a fuel. | 11-07-2013 |
20130304355 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE WITH SUPERCHARGER - An object of the present invention is to prevent hunting of a throttle in a region in which a throttle upstream pressure and a throttle downstream pressure become substantially equal to each other in an internal combustion engine with a supercharger. For this purpose, a control device for an internal combustion engine with a supercharger provided by the present invention processes a signal of a throttle opening which is calculated by using a formula of throttling when a ratio of the throttle upstream pressure and the throttle downstream pressure has a value close to 1, and controls an operation of the throttle with the throttle opening the change speed of which is lessened as a target throttle opening. | 11-14-2013 |
20130304356 | CYLINDER-BY-CYLINDER AIR-FUEL RATIO CONTROLLER FOR INTERNAL COMBUSTION ENGINE - When executing a Local-learning, an air-fuel ratio detecting time is corrected so that a dispersion of detection values of an air-fuel ratio sensor becomes a maximum value in one cycle of an engine. While executing a cylinder-by-cylinder air-fuel ratio control, a Global-learning is executed. In the Global-learning, the air-fuel ratio detecting time is corrected based on a relationship between a variation in estimated air fuel ratio of each cylinder and a variation in fuel quantity correction value of each cylinder. In the Global-learning, a computer computes a correlation coefficient between the variation in estimated air-fuel ratio and the variation in fuel quantity correction value of the cylinder for each case where the cylinder assumed to correspond to the estimated air fuel ratio is hypothetically varied in multiple ways. Then, the air-fuel ratio detecting time is corrected so that this correlation coefficient becomes a maximum value. | 11-14-2013 |
20130311062 | ENGINE SYSTEM AND A METHOD OF OPERATING A DIRECT INJECTION ENGINE - Systems and methods are provided for an engine. The system comprises a direct injection engine having a cylinder in which a piston is slidingly supported to form in combination with a cylinder head a combustion chamber; a fuel injector for the cylinder having a catalytic coated tip portion that projects into the combustion chamber; and an electronic controller to control the operation of the engine and operates the engine in a heating mode of operation if heating of the fuel injector tip is requested. Various methods for heating the fuel injector tip are proposed including operating the engine on a reduced number of cylinders and varying one or both of fuel injection timing and quantity of fuel injected and the ignition timing in order to increase the temperature of combustion. | 11-21-2013 |
20130311063 | CETANE NUMBER ESTIMATION DEVICE - An electronic control unit detects an index value of an amount of generated heat of fuel to be combusted in a diesel engine. The electronic control unit also executes the injection of a predetermined amount of the fuel to estimate a cetane number of the fuel and calculates an index value of output torque of the diesel engine generated with that execution. Then, the electronic control unit calculates an estimated value of the cetane number of the fuel based on the index value of the output torque and the index value of the amount of generated heat. | 11-21-2013 |
20130311064 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - An object of this invention is to provide a control apparatus for an internal combustion engine which makes it possible to reliably avoid an abnormal increase in in-cylinder pressure due to pre-ignition. The control apparatus of this invention controls an internal combustion engine including an injector that directly injects fuel into a cylinder. The control apparatus includes pre-ignition detection means that executes an operation to detect pre-ignition until a time of a crank angle θA, and injection instruction means that, at a time of a crank angle θB that is before the crank angle θA, sends to the injector an injection instruction to perform fuel injection that suppresses pre-ignition combustion. Preferably, the control apparatus includes energization stopping means that, when the pre-ignition detection means does not detect pre-ignition until the time of the crank angle θA, stops energization of the injector that is started by the injection instruction. | 11-21-2013 |
20130317721 | METHOD OF EVALUATING A FUEL INJECTOR - A method of calibration of at least one fuel injector for a fuel burner in an exhaust gas treatment system for an internal combustion engine is provided. The method is adapted for an exhaust gas system having the fuel burner mounted upstream of a diesel particle filter (DPF). The method of calibration is performed during an idle speed of the combustion engine, this to assure a constant temperature of the burner during the calibration. Hence, the method is started when a first steady tempera tore is registered in the fuel burner, wherein the at least one fuel injector, is operated with a first pulse width. A first temperature of an exhaust gas is registered directly downstream of the fuel burner. After this first temperature is registered, the pulse width, of the fuel injector changed into a second pulse width, which is different from the first pulse width. | 11-28-2013 |
20130325293 | System And Method For Controlling Engine Torque Load - A machine includes at least one torque consuming device drivingly coupled with an internal combustion engine. An electronic controller is in communication with the engine and the torque consuming device, and is configured to receive a load request and determine a current operating state of the engine. The electronic controller simulates transition of the engine from the current operating state to a requested operating state according to a plurality of different load application pathways. An engine response characteristic for each of the different load application pathways is determined, and the electronic controller selects one of the different load application pathways based on the engine response characteristic. The engine is then transitioned from the current operating state to the requested operating state according to the selected load application pathway. | 12-05-2013 |
20130325294 | method and device for carrying out an adaptive control of a position of an actuator of a position transducer - A method for operating a controller for a position transducer system, of a throttle valve position transducer in an engine system having an internal combustion engine, the control being performed to obtain a manipulated variable for triggering an actuating drive of the position transducer system, the control being performed by initially applying a transfer function to a system deviation to obtain an adapted system deviation and subsequently applying a transfer function to the adapted system deviation to obtain the manipulated variable, the transfer function being a function which indicates a deviation of a model of a nominal position transducer system having predefined nominal parameters from the model of the position transducer system to be controlled, an adaptation of the control process being performed by adapting the transfer function, in that the parameters of the model of the position transducer system to be controlled are adapted, in particular in real time. | 12-05-2013 |
20130332048 | ELECTRONIC CONTROL FUEL INJECTION VALVE - An electronically controlled fuel injection valve can control the time to inject fuel and the amount of fuel to be injected in response to a control signal independently from the operating condition of an engine unlike a traditional mechanical fuel injection valve. The electronically controlled fuel injection valve employs a control method for fuel injection that increases the force of lifting up a cutoff needle of an injection controller by delivering high-pressure fuel to a lower pressure chamber via a control needle, thereby rapidly controlling fuel injection, has a simple structure making it easy to assemble, replace and precisely machine parts, and has a simple flow path structure which facilitates fabrication. | 12-12-2013 |
20130332049 | CONTROL OF A/F RATIO AT CUT-OUT SPEED - The invention concerns a method for controlling at least one of a fuel supply and an air supply to an internal combustion engine ( | 12-12-2013 |
20130338903 | SYSTEM AND METHOD FOR COMPENSATING GASEOUS FUEL INJECTION - A system and method for operating an engine using gaseous fuel is described. In one example, engine operation is adjusted responsive to a temperature of air entering an engine and a resultant temperature of a gaseous fuel injected to the engine. The system and method may improve engine air-fuel control. | 12-19-2013 |
20130338904 | AIR-FUEL RATIO CONTROL APPARATUS FOR AN INTERNAL COMBUSTION ENGINE - An air-fuel ratio control apparatus for an internal combustion engine of the present invention determines whether or not a lean request has occurred, based on a comparison between a value correlating with an output value of the downstream air-fuel ratio sensor disposed downstream of the catalyst (downstream air-fuel ratio sensor output correlating value) and a predetermined lean request determining value, and determines whether or not a rich request has occurred, based on a comparison between the downstream air-fuel ratio sensor output correlating value and a predetermined rich request determining value. Further, the air-fuel ratio control apparatus calculates a total amount of oxygen (released oxygen amount) released from the catalyst in the rich request occurring period, and calculates an integrated value (present stored oxygen amount) of oxygen stored in the catalyst after a start of the lean request occurring period which follows the rich request occurring period. The apparatus changes the rich request determining value in such a manner that a point in time at which it is determined that the rich request has occurred comes much earlier as the present stored oxygen amount comes closer to the released oxygen amount. | 12-19-2013 |
20130345947 | FUEL CONSERVATION SYSTEMS AND METHODS - Methods and systems are described for conserving fuel used by an engine. In some embodiments a control module processes a user-provided input, as a first function, into a second function. The second function can be used to direct the engine with a directive output power. The directive output power may have regions equal to, greater than, and/or less than what the power output would be if the engine were controlled using the user-provided input. | 12-26-2013 |
20130345948 | METHOD FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE - A method for controlling an internal combustion engine comprising a number of cylinders and wherein the air mass trapped in each cylinder is adjusted by means of a respective intake valve by means of an actuation device with variable opening law; the method includes determining the required total target torque to be delivered; determining a number of active cylinders and a number of inactive cylinders; determining the angle for controlling the intake valve of the number of active cylinders and of the number of inactive cylinders, respectively; and controlling the internal combustion engine as a function of the control angle of the intake valves of the number of active cylinders and of the number of inactive cylinders. | 12-26-2013 |
20140012484 | SYSTEM AND METHOD FOR FAULT DIAGNOSIS IN FUEL INJECTION SYSTEM - A method for fault diagnosis in a fuel injection system having first and second fuel injectors. The method includes initiating a current flow in the first and second fuel injectors. Further, a rise duration of the current flow to reach a threshold level is measured. The method further includes comparing the rise duration and a preset duration. The fuel injection system is controlled based on the comparison. | 01-09-2014 |
20140012485 | Method for Determining the Opening Point in the Time of a Fuel Injector - A method for determining the opening point in time of a control valve having a coil drive of an indirectly driven fuel injector for an internal combustion engine of a motor vehicle may include: detecting the time curve of the current intensity of a current flowing through the coil drive, determining a current integral with respect to the detected current intensity as a function of the time and starting from a defined initial time, and determining a time at which the current integral reaches at least a predefined current integral reference value, wherein the determined time is the opening point in time of the control valve. A corresponding device and a computer program for determining the opening point in time of a control valve of an indirectly driven fuel injector are also disclosed. | 01-09-2014 |
20140012486 | Method and control unit for detecting a voltage offset of a voltage-lambda characteristic curve - A method/control unit for detecting a voltage offset in a range of a voltage-lambda characteristic curve of a two-point lambda sensor in an engine exhaust gas duct as to a reference voltage-lambda characteristic curve of the two-point lambda sensor, which is part of a controlled system for adjusting an air-fuel mixture supplied to the engine, a characteristic curve deviation of voltage-lambda characteristic curve to the reference characteristic curve being corrected at λ=1, so that a change in the air-fuel mixture composition toward λ=1 occurs, starting from a value pair to be checked on the reference characteristic curve, with a lambda and a voltage to be checked, the actual value of lambda being inferred from the change in the mixture composition until reaching λ=1. The method/control unit permit determining and compensating a voltage offset of a two-point lambda sensor conditional upon aging or manufacturing tolerances. | 01-09-2014 |
20140019028 | DIFFERENTIAL FUEL INJECTION - A system and methods for operating four in-line cylinders with common rail injection is described that comprises operating a first cylinder group without a compression and power stroke injection, but with an exhaust stroke injection while operating a second cylinder group with at least a compression stroke injection. In this way, the unburned fuel injected during the exhaust stroke enriches the exhaust-gas flow and further allows heating of the exhaust aftertreatment system. In one example provided, the first cylinder group is further configured to operate in an exhaust heating mode while also operating in a power generating mode. | 01-16-2014 |
20140039778 | NOX CONTROL DURING CYLINDER DEACTIVATION - Methods and systems are provided for improving engine exhaust emissions while enabling exhaust catalyst regeneration following an engine lean event. Prior to a VDE event, or prior to an engine idle-stop, ammonia is produced and stored on an exhaust underbody SCR catalyst. Then, during the engine restart after the VDE mode or the idle-stop, the stored ammonia is used to treat exhaust NOx species while an upstream exhaust underbody three-way catalyst is regenerated. | 02-06-2014 |
20140039779 | Method For The Operation Of An Internal Combustion Engine, And Internal Combustion Engine - A method for operating an internal combustion engine and an internal combustion engine are described. In order to recognize and correct the drift in the amount of fuel injected over the service life of the injectors of the injection system of the internal combustion engine, multiple different corrective functions are used to establish corrected individual characteristics relative to nominal characteristics. Each offset of the corrected individual characteristic from the nominal characteristics is determined, offset curves are created, and the sections of the individual offset curves representing a minimal offset are used as control data for the amount of fuel to be injected, thus making it possible to always achieve overall optimal control with a minimal difference in the amount of injected fuel. | 02-06-2014 |
20140058645 | ENGINE CONTROL SYSTEMS AND METHODS - A system comprising an air actuator configured to control air delivered to an engine; a fuel actuator configured to control fuel delivered to an engine; and a controller configured to: actuate the air actuator in response to a first torque signal; and actuate the fuel actuator in response to a second torque signal. | 02-27-2014 |
20140067232 | MEASURED FUEL RAIL PRESSURE ADJUSTMENT SYSTEMS AND METHODS - A system for a vehicle includes a pump control module, an adjustment determination module, and an adjusting module. The pump control module selectively disables pumping of a fuel pump that is driven by a spark ignition direct injection (SIDI) engine. A predetermined period after the pumping of the fuel pump is disabled, the adjustment determination module determines a pressure adjustment for a first fuel rail pressure measured using a fuel rail pressure sensor. The adjusting module generates a second fuel rail pressure based on the pressure adjustment and the first fuel rail pressure. | 03-06-2014 |
20140067233 | VEHICLE ENGINE CONTROL SYSTEM - A calculation control circuit unit | 03-06-2014 |
20140074374 | COORDINATED TORQUE CONTROL SECURITY SYSTEMS AND METHODS - A control system for an engine includes a selecting module, a target air per cylinder (APC) module, and a phaser scheduling module. The selecting module: selects one of (a) target intake and exhaust cam phaser angles and (b) measured intake and exhaust cam phaser angles; and sets selected intake and exhaust cam phaser angles based on the selected one of the target intake and exhaust cam phaser angles and the measured intake and exhaust cam phaser angles, respectively. The target APC module determines a target APC based on a target spark timing and the selected intake and exhaust cam phaser angles. The phaser scheduling module determines the target intake and exhaust cam phaser angles based on the target APC and controls intake and exhaust cam phasers of the engine based on the target intake and exhaust cam phaser angles, respectively. | 03-13-2014 |
20140074375 | Control Apparatus and Control Method for Variable Valve Mechanism - In a control apparatus for a variable valve mechanism that varies a valve characteristic of an engine valve, in a saturated state in which a calculated manipulated variable of the variable valve mechanism exceeds an outputtable manipulated variable, convergence to a desired position is achieved while suppressing a response delay and an overshoot. If a feedforward manipulated variable calculated according to a reference response exceeds an outputtable limit manipulated variable, a saturating amount (feedforward manipulated variable—limit manipulated variable) is integrated. Upon completion of the integration, the feedforward manipulated variable is corrected based on an FF manipulated variable correction amount, and the integrated value of saturating amount is replaced by a value obtained by subtracting the FF manipulated variable correction amount each time a correction is made. When the integrated value of saturating amount reduces to a predetermined value or less, a control mode is switched to feedback control. | 03-13-2014 |
20140074376 | METHOD AND SYSTEM FOR ENGINE SPEED CONTROL - Methods and systems are provided for accurately determining cylinder fueling errors during an automatic engine restart. Fueling errors may be learned during a preceding engine restart on a cylinder-specific and combustion event-specific basis. The learned fueling errors may then be applied during a subsequent engine restart on the same cylinder-specific and combustion event-specific basis to better anticipate and compensate for engine cranking air-to-fuel ratio deviations. | 03-13-2014 |
20140081556 | USING ION CURRENT SIGNAL FOR SOOT AND IN-CYLINDER VARIABLE MEASURING TECHNIQUES IN INTERNAL COMBUSTION ENGINES AND METHOD FOR DOING THE SAME - A system and method is provided for the use of the ion current signal characteristics for onboard cycle-by-cycle, cylinder-by-cylinder measurement, for example soot measurement, load measurement such as indicated or brake mean effective pressure, or fuel consumption measurement in an internal combustion engine. The system may acquire an ion current signal, measures one or more of soot, load, fuel consumption and may control the engine operating parameters accordingly. | 03-20-2014 |
20140088851 | CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - A control system for an internal combustion engine, which is capable of directly and properly calculating the most fuel-efficient torque according to operating conditions of the engine without setting or learning in advance operating lines indicative of the most fuel-efficient torques, thereby making it possible to reduce costs and enhance fuel economy. In the control system, when the engine is operated at a predetermined reference rotational speed, a plurality of fuel consumption ratio parameters associated with a plurality of estimated torques are calculated based on a provisional intake air amount-estimated torque relationship which is the relationship between provisional intake air amounts and estimated torques to be obtained when the provisional intake air amounts of intake air are supplied. Further, an estimated torque associated with a minimum value of the fuel consumption ratio parameters is calculated as the most fuel-efficient torque at the reference rotational speed. | 03-27-2014 |
20140088852 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - Provided is a control apparatus for an internal combustion engine which can favorably achieve a good balance between the prevention of an excessive increase in the piston temperature and the prevention of deterioration of various performances of the internal combustion engine as a result of execution of abnormal combustion suppression control, even when abnormal combustion occurs continuously or substantially continuously over a plurality of cycles. An in-cylinder pressure sensor ( | 03-27-2014 |
20140095051 | ADAPTIVE FUEL MANIFOLD FILLING FUNCTION FOR IMPROVED ENGINE START - There is described a system and method for filling an engine fuel manifold. An adaptive filling function is used to determine a flow rate at which fuel is to be delivered to the fuel manifold. The filling function receives as an input a present measurement of the engine's speed and computes the flow rate accordingly. The fuel manifold may then be filled according to the computed flow rate so as to match the engine's speed. Appropriate fuel/air ration conditions can therefore be achieved for successful engine start. | 04-03-2014 |
20140095052 | END-POSITION-MONITORING OF A GAS INJECTOR - The invention relates to a method for checking whether an electromagnetically actuated gas injector ( | 04-03-2014 |
20140100758 | ENGINE CONTROL SYSTEM AND METHOD - Methods and systems are provided for purging condensate from a charge air cooler to an engine intake. During an engine deceleration event, airflow through a charge air cooler is temporarily increased to purge stored condensate to the engine intake. By delivering condensate while an engine is not fueled, misfire events resulting from ingestion of water are reduced. | 04-10-2014 |
20140100759 | FUEL CONTROL SYSTEM AND FUEL CONTROL METHOD OF A GASOLINE DIRECT INJECTION ENGINE - A fuel control system and fuel control method of gasoline direct injection engine can improve noise vibration harshness (NVH) by preventing fuel from flowing backward into a low pressure pump by determining whether the ignition of the engine is turned off and maintaining the operation of an inlet valve of a high pressure pump for a predetermined time when the ignition of the engine is determined to be turned off. | 04-10-2014 |
20140107908 | ENGINE EFFICIENCY SYSTEM FOR A VEHICLE AND METHOD OF OPERATING AN ENGINE EFFICIENCY SYSTEM - An engine efficiency system for a vehicle includes an electromechanically operated oil distribution device disposed proximate an oil environment of the vehicle. Also included is a current detection system for detecting a current change rate of the electromechanically operated oil distribution device, wherein the current change rate corresponds to a viscosity of an oil disposed in the oil environment of the vehicle. Further included is at least one efficiency device activated over a range of the viscosity of the oil. | 04-17-2014 |
20140121940 | EXHAUST-GAS REGENERATION UNDER RICH CONDITIONS TO IMPROVE FUEL ECONOMY - A method for operating a boosted gasoline engine. The method includes diluting an intake air charge of the engine to a first level of dilution when operating at a stoichiometric air-to-fuel ratio. The method also includes, in response to a condition of excessive exhaust temperature downstream of the engine, diluting the intake air charge of the engine to a second, greater level of dilution while operating at an enriched air-to-fuel ratio. | 05-01-2014 |
20140121941 | Intake Pressure Control In Internal Combustion Engine - Controlling intake pressure in an internal combustion engine includes calculating a proportional control term based on a difference between actual and desired intake pressure, determining choke and waste gate position values responsive to the proportional control term, and commanding a change in position of the choke or waste gate responsive to the corresponding position value to adjust actual intake pressure toward desired intake pressure. Related apparatus and control logic is also disclosed. | 05-01-2014 |
20140121942 | GASOLINE ENGINE CONTROL SYSTEM AND CONTROL METHOD FOR THE SAME - A gasoline engine control system includes a crankshaft rotation sensor configured to measure a rotation speed of a crankshaft, a coolant temperature sensor configured to measure a coolant temperature, an engine knocking sensor, a valve timing mechanism, an engine igniter, an air/fuel controller, and a controller configured to obtain a crankshaft rotation speed, a coolant temperature, and knocking information from the crankshaft rotation sensor, the coolant temperature sensor, and the engine knocking sensor, respectively, to determine a fuel class flowing in the engine and a cold start adaption factor, determine a fuel/cold start adaption factor based on the fuel class and the cold start adaption factor, and control an operation of at least one of the valve timing mechanism, the engine igniter, and the air/fuel controller according to the determined fuel/cold start adaption factor when the determined fuel/cold start adaption factor may be not a predetermined reference fuel/cold start adaption factor. | 05-01-2014 |
20140121943 | CONTROL SYSTEM AND CONTROL METHOD OF GASOLINE DIRECT INJECTION ENGINE - A control system and a control method of a gasoline direct injection engine may include determining whether the engine is stopped and can improve NVH of a vehicle by keeping the fuel high-pressure pump input valve of the high-pressure pump operating for a predetermined time and preventing fuel from flowing backward to the low-pressure pump. | 05-01-2014 |
20140121944 | FUEL CONTROL SYSTEMS AND METHODS FOR COLD STARTS OF AN ENGINE - A control system includes a starter control module, a mode setting module, a fuel pressure control module, and a fuel control module. The starter control module initiates cranking of a spark ignition direct injection (SIDI) engine in response to user actuation of an ignition switch. The mode setting module sets a mode of operation to a cold start mode when an engine coolant temperature is less than a predetermined temperature during the cranking. The fuel pressure control module, in response to the setting of the mode to the cold start mode, determines a target fuel rail pressure. The fuel control module controls fueling during the cranking based on the target fuel rail pressure. | 05-01-2014 |
20140121945 | Direct Injection Flexible Multiplexing Scheme - An engine system may include a specified number of injectors and an engine control unit (ECU) having pins to which the injectors may be coupled. The ECU may include a controller implemented in hardware, software, or combination of both, and capable of switching between different multiplexing configurations, where each multiplexing configuration includes a specified number of individual injectors coupled across corresponding pairs of pins. The controller may select one multiplexing configuration from the number of specified multiplexing configurations without requiring any hardware adjustments to be made to the injectors and/or pins. The controller may also operate the individual injectors through the corresponding pairs of pins in an active multiplexing configuration selected by the controller. In at least one multiplexing configuration, the controller may control low-side switches at certain pins of the corresponding pairs of pins, and independent high-side switches at the remaining pins of the corresponding pairs of pins. | 05-01-2014 |
20140121946 | Direct Injection Cross Point Switching for Multiplexing Control in an Engine Control System - An engine system may include a injectors, and an engine control unit (ECU) having a number of pins coupling to the injectors. The ECU may include an individual measurement circuit coupled to each pin, with each individual measurement circuit providing a respective individual output corresponding to the pin coupled to the measurement circuit. The ECU may also include subtraction circuits, each subtraction circuit having a respective pair of inputs and providing an output representative of a difference between respective input values appearing at the pair of inputs. The ECU may also include cross-point switches coupled between the measurement circuits and the subtraction circuits, and may determine the voltage difference between any two pins by selectively coupling the respective output of each of the two individual measurement circuits coupled to the two pins to a respective input of the pair of inputs of any subtraction circuit. | 05-01-2014 |
20140121947 | ENGINE CONTROL UNIT - Engine control unit enabling to learn a change of relationship between a throttle opening degree and an intake air quantity (opening degree—air quantity characteristic) while restricting lowering of fuel efficiency to a minimum and to improve accuracy of engine stall prevention, torque control, including: a learning means which learns a characteristic change amount of the opening degree—air quantity characteristic; a learning requirement determining means; and a learning moving means causing executing learning in a stable driving state. The learning requirement determining means derives a separation amount between an intake air quantity corresponding to a throttle valve opening degree at present time and an actual intake air quantity detected in the stable driving state and determines requirement of learning with use of the separation amount and a threshold value. | 05-01-2014 |
20140129115 | START-UP CONTROL APPARATUS AND START-UP CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - A start-up control apparatus for an engine comprising a controller. The engine being provided in a vehicle having a plurality of shift ranges including one or both of a braking range and a manual shift range. The controller programmed to perform fuel increase control for increasing a fuel injection amount at a time of start-up of the engine. The controller being programmed to increase the fuel injection amount at a time of present start-up of the engine in a case where a selected shift range at a time of previous shutdown of the engine is the braking range or the manual shift range, as compared to a case where the selected shift range at the time of the previous shutdown of the engine is other than the braking range and the manual shift range. | 05-08-2014 |
20140129116 | INTER-CYLINDER AIR-FUEL RATIO VARIATION ABNORMALITY DETECTION APPARATUS FOR MULTICYLINDER INTERNAL COMBUSTION ENGINE - An inter-cylinder air-fuel ratio variation abnormality detection apparatus for a multicylinder internal combustion engine according to the present invention detects variation abnormality based on a rotational fluctuation of the internal combustion engine. Number-of-rotations feedback control is preformed to make the number of rotations of the internal combustion engine equal to a predetermined target number of rotations. The amount of power generated by a power generation device driven by the internal combustion engine is controlled so as to bring the load on the internal combustion engine into a target range when the abnormality detection is carried out. | 05-08-2014 |
20140136079 | Control Strategy In Gaseous Fuel Internal Combustion Engine - Controlling a gaseous fuel internal combustion engine includes receiving a signal indicative of a desired state of an operating parameter of the engine dependent upon a fueling rate, and tracking the desired state via adjusting a pressure drop from a gaseous fuel common rail to an intake conduit such that the fueling rate is adjusted toward a fueling accordant with the desired state. The control further includes limiting an error in the tracking via executing the adjustment of the pressure drop responsive to a fluid pressure disturbance within the intake conduit. | 05-15-2014 |
20140136080 | Control Strategy For Dual Gaseous And Liquid Fuel Internal Combustion Engine - A control system for a dual gaseous and liquid fuel engine includes an electronic controller configured to receive data from a plurality of sensing mechanisms indicative of an error in a plurality of different engine operating parameters. The electronic controller is further configured to determine a highest priority one of the errors, and limit substitution of the gaseous fuel responsive to a normalized value thereof. | 05-15-2014 |
20140136081 | SPARK PLUG DEGRADATION DETECTION - Methods and systems are provided for identifying and indicating degradation of an engine cylinder spark plug. In response to a cylinder misfire event during selected engine operating conditions, followed by an occurrence of a threshold number and/or rate of pre-ignition events in the same cylinder, a controller may determine that the spark plug is degraded. The controller may limit combustion in the cylinder in response to the degradation. Additionally, cylinder pre-ignition mitigating steps may be taken. | 05-15-2014 |
20140142833 | Catalyst Light-Off for Turbocharged Internal Combustion Engine Having Dedicated EGR Cylinder(s) - A method of decreasing the light-off time of a catalytic exhaust aftertreatment device, using exhaust gas recirculation (EGR) in a turbocharged internal combustion engine. The engine has at least one “dedicated EGR cylinder”, whose entire exhaust is recirculated back to all the engine cylinders. The dedicated EGR cylinder(s) may be operated to produce a differently compositioned exhaust gas than the other cylinders. During light-off, EGR gas is optimized for heat, diverted from the EGR loop and routed to a point directly upstream the aftertreatment device. | 05-22-2014 |
20140149019 | ENGINE WITH LASER IGNITION AND MEASUREMENT - Systems and methods for increasing an efficiency of engine starting of a hybrid vehicle are disclosed. In one example approach, a method comprises operating a laser ignition device in an engine cylinder and identifying engine position in response thereto; and igniting an air and fuel mixture in the cylinder with the laser ignition device. | 05-29-2014 |
20140156169 | CONTROL SYSTEM FOR MULTI-CYLINDER ENGINE - A control system for fuel delivery systems associated with cylinders of a multi-cylinder engine is provided. The control system includes a detector, a processor, and an actuator. The detector is configured to sense a signal to change from a compression ignited fuel to a spark ignited fuel in a pre-determined number of cylinders. The processor is configured to receive the signal from the detector and generate one or more actuation signals. The controller is configured to receive the actuation signals and tandemly control the fuel delivery systems associated with the pre-determined cylinders based on the actuation signals. | 06-05-2014 |
20140156170 | Method and Device for Controlling a Variable Valve Train of an Internal Combustion Engine - A method for controlling a variable valve train of an internal combustion engine including multiple cylinders is disclosed. At a first operating point of the engine, an intake air amount is determined and cylinder-individual values for a fuel amount reduction are determined by successively reducing the respectively supplied fuel amount for each cylinder until a characteristic representing uneven running of the engine has reached a predetermined uneven running threshold value. A ratio of a change in the intake valve lift to the resulting change in the intake air amount is determined for the first operating point. Cylinder-individual deviations of the intake valve lift from a reference value are determined based on the ratio, the intake air amount at the first operating point, and the associated value for the fuel amount reduction. The variable valve train is then controlled on the basis of the cylinder-individual deviations of the intake valve lift. | 06-05-2014 |
20140156171 | VEHICLE CONTROL DEVICE - A vehicle control device is a vehicle control device for a vehicle capable of coasting, in which when there is no acceleration or deceleration request to the vehicle while traveling, power transmission between an engine and drive wheels is cut off and the vehicle is allowed to travel by inertia, wherein in a state in which there is no acceleration or deceleration request to the vehicle while traveling and power is transmitted between the engine and the drive wheels, whether or not to implement the coasting is determined by comparing a required deceleration rate Dt which is estimated as a deceleration rate to be later required of the vehicle and a coasting deceleration rate Dn which is estimated as a deceleration rate during the coasting. Where it is determined to implement the coasting, power transmission between the engine and the drive wheels is cut off and the coasting is implemented, and where it is determined not to implement the coasting, power transmission between the engine and the drive wheels is maintained. As a result, the implementation of coasting that can provide a sense of anxiety or discomfort to the driver can be suppressed. | 06-05-2014 |
20140163839 | SYSTEMS AND METHODS FOR CONTROLLING CYLINDER DEACTIVATION AND ACCESSORY DRIVE TENSIONER ARM MOTION - A control system for an engine includes a torque modifier module that selects one of a plurality of torque modifier values based on variations in an accessory load. A torque calculating module calculates a maximum torque value for operation in a cylinder deactivation mode based on the selected one of the plurality of torque modifier values. A torque control module selectively switches the engine between the cylinder deactivation mode and a cylinder activation mode based on the maximum torque value. | 06-12-2014 |
20140163840 | DEVICE FOR CONTROLLING VEHICLE ENGINE STARTING - A vehicle engine start control device in a vehicle includes a direct injection engine directly injecting fuel into a cylinder as a drive power source for running. The vehicle engine start control device is configured to start rotation of the direct injection engine when the direct injection engine is started from a stop state of the direct injection engine in which a first cylinder of a plurality of cylinders is in an expansion stroke while a second cylinder next to the first cylinder in an ignition order is located at a top dead center. Further, the device directly injects fuel into the second cylinder and ignites the fuel while a piston of the second cylinder is moving away from the top dead center toward a bottom dead center in a first expansion stroke in the second cylinder after the start of the rotation. | 06-12-2014 |
20140172273 | SYSTEM AND METHOD FOR CONTROLLING TORQUE OUTPUT OF AN ENGINE WHEN A WATER PUMP COUPLED TO THE ENGINE IS SWITCHED ON OR OFF - A system according to the principles of the present disclosure includes a pump control module, an actuator control module, and a torque reserve module. The pump control module switches a water pump between on and off. The water pump circulates coolant through an engine when the water pump is on. The actuator control module controls a first actuator of the engine based on a first torque request and that controls a second actuator of the engine based on a second torque request. The torque reserve module adjusts a torque reserve before the water pump is switched on or off based on a change in engine load expected when the water pump is switched on or off. The torque reserve is a difference between the first torque request and the second torque request | 06-19-2014 |
20140180560 | CARBURETION CONTROL SYSTEM - System for controlling the carburetion of an internal combustion engine comprising the following activities: a) starting the engine; b) determining the factor λo using any known method; c)measuring the ionization current ci | 06-26-2014 |
20140188370 | ENGINE IDLE SPEED AND TURBOCHARGER SPEED CONTROL - Various methods are described for controlling engine operation for an engine having a turbocharger and direction injection. One example method includes performing at least a first and second injection during a cylinder cycle, the first injection generating a lean combustion and the second injection injected after combustion such that it exits the cylinder unburned into the exhaust upstream of a turbine of the turbocharger; and adjusting at least the first injection based on engine speed, where the at least first and second injection are performed responsive to turbocharger speed. | 07-03-2014 |
20140188371 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - An ECU executes a program including the steps of: when an aging completion flag is ON, determining that a predetermine value serves as an abnormality determination threshold value; when the aging completion flag is OFF, determining the abnormality determination threshold value depending on to what extent aging has progressed; and determining whether or not an air/fuel ratio sensor is abnormal using the determined threshold value. | 07-03-2014 |
20140200793 | SYSTEM AND METHOD FOR DETERMINING AND DISPLAYING A FUEL-EQUIVALENT DISTANCE-PER-ENERGY CONSUMPTION RATE - A method and system for determining and displaying a rate corresponding to the distance travelled by a vehicle per an amount of fuel-equivalent energy consumption, and more particularly for determining and displaying a number of miles or kilometers travelled per a gallon or a liter of total fuel and fuel-equivalent non-fuel energy consumed. The system includes an electronic control unit, an engine, a fuel controller, a battery, a battery management and control unit and a display. The method and system determine the fuel-equivalent energy consumption sum based on a constant energy conversion factor or an energy conversion efficiency loss number or factor determined in real time. The method and system also determine and display a fuel-equivalent cost for travelling a kilometer or a mile of the distance travelled. The method and system also change an operation of the vehicle based on the determined rate and fuel-equivalent cost. | 07-17-2014 |
20140200794 | METHODS AND SYSTEMS FOR A HYBRID VEHICLE - Systems and methods for learning torque estimate errors and updating torque estimation models are presented. In one example, torque errors are learned during an engine shut-down, after a disconnect clutch coupled between an engine and an electric machine has been released. An updated torque estimation model is then used to control torque during subsequent engine operation to improve drive feel and vehicle performance. | 07-17-2014 |
20140222313 | METHOD OF CONTROLLING FLUID PRESSURE-ACTUATED SWITCHING COMPONENT AND CONTROL SYSTEM FOR SAME - A method includes energizing a solenoid valve of a hydraulic control system according to a predetermined timing schedule to move a valve member of the solenoid valve. The solenoid valve is operatively connected to the switching component by a fluid control passage, such as a passage in an engine block, to deliver pressurized fluid from a supply passage when the valve member moves to switch the switching component from a first mode to a second mode. An operating parameter of the control system is measured. The operating parameter may be a period of time over which the valve member moves, or a sensed operating parameter of the fluid, such as pressure or temperature. The measured parameter is then compared with a predetermined parameter. Energizing of the solenoid valve is then adjusted based on the difference. | 08-07-2014 |
20140236456 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - The invention relates to a control apparatus for an internal combustion engine ( | 08-21-2014 |
20140257672 | EJECTOR FLOW RATE COMPUTATION FOR GAS CONSTITUENT SENSOR COMPENSATION - Methods and systems are provided for computing the flow rate at a suction port of an ejector arranged in series with an outlet of an engine system such as a fuel vapor purge system during certain conditions. In one example, the need for a sensor at an ejector suction port may be reduced by adjusting exhaust gas recirculation based on a flow rate at the ejector suction port, the flow rate based on a flow characteristic of the ejector and a flow characteristic of an engine system. The flow rate and a reductant concentration of gases from the engine system may then be used as a basis for compensation of a diluent concentration measurement taken by a gas constituent sensor arranged downstream of the ejector outlet in an engine intake passage, e.g. to improve adjustment of exhaust gas recirculation based on the compensated diluent concentration measurement. | 09-11-2014 |
20140278001 | SYSTEM AND METHOD FOR CONTROLLING AN OPERATING FREQUENCY OF A PURGE VALVE TO IMPROVE FUEL DISTRIBUTION TO CYLINDERS OF AN ENGINE - A system according to the principles of the present disclosure includes an engine speed module and a valve control module. The engine speed module determines a speed of an engine based on a position of a crankshaft. The valve control module selectively adjusts an operating frequency of a purge valve based on the engine speed. | 09-18-2014 |
20140278002 | ALTITUDE COMPENSATION FOR TARGET ENGINE SPEED IN HYBRID ELECTRIC VEHICLE - A method for controlling a hybrid electric vehicle includes selecting a first target engine speed in response to a driver power request, calculating an available engine torque at the first target engine speed, adjusting the target engine speed if the available engine torque is insufficient to satisfy the driver power request, and commanding an engine to run at the target engine speed. The first target engine speed is optimized for fuel economy. The calculated available engine torque is less than a calculated maximum engine torque at the target engine speed, such that a torque reserve is maintained for engine vacuum. | 09-18-2014 |
20140278003 | REJUVENATION CONTROL OF PALLADIUM-ONLY DIESEL OXIDATION CATALYST - A method is disclosed for assessing and maintaining the use of a palladium-only (i.e., platinum free) oxidation catalyst body to oxidize carbon monoxide and hydrocarbons in the exhaust stream of a diesel engine powered vehicle, which is operated at a fuel-lean air-to-fuel ratio (A/F) for much of the time it powers a vehicle. Periodically, a recent history of the temperatures of the exhaust gas at the inlet to the palladium oxidation catalyst body is prepared in a computer control module. And a recent history of the A/F of the operating engine is considered. These temperature and A/F values are then used in determining whether the engine should be temporarily operated in a fuel-rich or stoichiometric A/F mode to provide an exhaust gas composition suitable for rejuvenation of the palladium by reducing its oxide formed during lean operation of the engine. | 09-18-2014 |
20140278004 | METHOD AND DEVICE FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE - A method for stopping an internal combustion engine, in which an air flow supplied via an air metering device, in particular a throttle valve of the internal combustion engine, is reduced after a stopping request has been ascertained, an undershoot point in time is ascertained, at which an ascertained speed of the internal combustion engine falls below a pre-definable speed threshold value, after the undershoot point in time, the air flow supplied via the air metering device of the internal combustion engine is increased again, the predefinable speed threshold value being selected in such a way that an intake cylinder no longer enters a compression stroke after the increase of the supplied air flow until the internal combustion engine is at a standstill, a degree of opening of the air metering device to increase the supplied air flow being selected as a function of a coasting speed of the internal combustion engine. | 09-18-2014 |
20140288802 | APPARATUS FOR DETECTING IMBALANCE ABNORMALITY IN AIR-FUEL RATIO BETWEEN CYLINDERS IN MULTI-CYLINDER INTERNAL COMBUSTION ENGINE - An apparatus for detecting imbalance abnormality in an air-fuel ratio between cylinders in a multi-cylinder internal combustion engine is disclosed. The apparatus includes an imbalance determining unit programmed to determine imbalance in an air-fuel ratio of a first cylinder belonging to a cylinder group based upon a difference value between an index value correlative with a crank angular speed detected in the first cylinder and an index value correlative with a crank angular speed detected in a second cylinder belonging to another cylinder group, and further a correction unit programmed to correct the difference value for the first cylinder based upon the index value detected in at least one of other cylinders belonging to the same cylinder group as that of the first cylinder. | 09-25-2014 |
20140288803 | Vehicle With Engine Start-Stop Device and Method of Operating Same - A vehicle having an internal combustion engine can be switched off automatic and can be started automatically by way of an engine start/stop device. The vehicle includes at least one electric energy store and at least one electric consumer. In the case of an internal combustion engine which has been switched off automatically, a stop current strength which is removed from the at least one electric energy store by the at least ne electric consumer can be determined. The engine start/stop device automatically starts the internal combustion engine if a predefined stop current threshold or a predefined stop discharge threshold is exceeded. | 09-25-2014 |
20140297159 | METHOD AND SYSTEM FOR ENGINE CONTROL - Methods and systems are provided for controlling exhaust emissions by adjusting an injection profile for different fuels injected into an engine cylinder from different fuel injectors during engine start and crank. By splitting fuel injection during start and cranking so that fuel of lower alcohol content is port injected and fuel of higher alcohol content is direct injected as one or multiple injections, the soot load of the engine can be reduced and fuel economy can be improved. | 10-02-2014 |
20140297160 | SHOVEL - A shovel includes a cabin in which a display monitor is provided, a main pump that generates a hydraulic pressure, an internal combustion engine that drives the main pump, and a display control part configured to generate display information to be displayed on the display monitor based on information communicated between the display control part and the internal combustion engine, and cause the generated display information to be displayed on the display monitor. The display control part is configured to cause a graph showing the fuel efficiency of the internal combustion engine over time and the operational work mode of the shovel corresponding to a time for which the fuel efficiency is calculated to be simultaneously displayed on the single display screen of the display monitor. | 10-02-2014 |
20140303873 | POSITION DETECTION FOR LOBE SWITCHING CAMSHAFT SYSTEM - Systems and methods for determining an active cam profile from a plurality of cam profiles is disclosed. The systems and methods may be used to determine how to operate an engine torque actuator or provide an indication of cam profile switching degradation. | 10-09-2014 |
20140309906 | PRESSURE DETERMINING METHOD AND MOTOR VEHICLE - A pressure determining method is provided for a fuel distribution rail of an injection system of a motor vehicle comprising maximizing the fuel rail pressure to minimize particulate emissions of the engine. The method determines a setpoint pressure based on a calculation pressure being determined from a sum of a combustion chamber pressure and a square of a ratio of a fuel mass component and a pulse width, wherein the calculation pressure is output, at least temporarily, as the setpoint pressure. | 10-16-2014 |
20140309907 | INTER-CYLINDER AIR-FUEL RATIO VARIATION ABNORMALITY DETECTION APPARATUS - When two abnormal cylinders are causing variation abnormality, these abnormal cylinders are identified. A parameter correlated with a degree of fluctuation of output from an air-fuel ratio sensor installed in an exhaust passage common to a plurality of cylinders is calculated. Based on the calculated parameter, inter-cylinder air-fuel ratio variation abnormality is detected. The following steps are carried out: (A) a step of forcibly changing amounts of fuel injected for two of the plurality of cylinders and calculating the parameter, (B) a step of changing the two cylinders to other two cylinders and repeating the step (A), and (C) a step of identifying two cylinders causing variation abnormality based on a plurality of the parameters calculated in the steps (A) and (B). | 10-16-2014 |
20140309908 | ELECTRONICALLY CONTROLLED LEAN OUT DEVICE FOR MECHANICAL FUEL INJECTED ENGINES - A device for the electronically controlled lean out of mechanical fuel injected engines comprising a wide band air fuel ratio sensor and a printed circuit board (PCB) connected to the wide band air fuel ratio gauge/controller. The printed circuit board (PCB) is connected to the wide band air fuel ratio sensor's power, ground, and signal wires. The computer controlled stepper motor is connected to the printed circuit board (PCB). A variable valve spool is retained in a fuel block and connected to the computer controlled stepper motor. Rotating the variable valve spool continuously adjusts and controls the air fuel ratio of the engine in real time by regulating the amount of fuel returned the fuel tank and the amount of fuel delivered to the barrel valve in a mechanically fuel injected engine. A jet can be used in combination with the fuel bock to further fine tune the fuel flow. | 10-16-2014 |
20140309909 | COMBUSTION ENGINE - The invention relates to a method for improving the efficiency of a combustion engine. The method comprises measuring a quantity of a primary fuel supplied to the combustion engine. Determining an operating state of the combustion engine. Selecting a fuel mapping profile based on an operating state of the combustion engine and determining from the fuel mapping profile an amount of a secondary fuel to be injected as a fraction of the measured quantity of the primary fuel. | 10-16-2014 |
20140316675 | PRESERVING COMBUSTION STABILITY DURING COMPRESSOR-SURGE CONDITIONS - A method to avoid over-dilution of an intake-air charge of an engine includes, during a first condition, applying at least some feedback control to the opening and closure of a valve that adjustably admits exhaust to the intake-air charge. During a second condition predictive of compressor surge, no feedback control is applied to the opening or the closure of the valve. Rather, feedforward control is applied to the closure of the valve so that stability in the engine is maintained even during surge conditions. | 10-23-2014 |
20140316676 | HUMIDITY SENSOR AND ENGINE SYSTEM - Methods and systems are provided for an engine coupled capacitance-based humidity sensor. Degradation of the humidity sensor may be determined based on humidity readings while flowing gasses into an engine intake air downstream of the humidity sensor and upstream of a compressor change by less than a first threshold while pressure at the sensor changes greater then a second threshold. The variation in pressure can be changed by adjusting a throttle upstream and downstream of the compressor based on whether the humidity sensor is degraded or functional. | 10-23-2014 |
20140316677 | Dual Fuel Common Rail Depressurization During Engine Shutdown And Machine Using Same - A machine includes a compression ignition engine fueled from common rail fuel injectors that predominately inject natural gas fuel that is compression ignited with a small pilot injection of liquid diesel fuel. When an engine shutdown command is communicated to an electronic controller, the supply of gaseous fuel to the gas rail is stopped and the gaseous fuel common rail is depressurized by continuing to run the engine and inject gaseous and liquid fuels while commanding a liquid pressure greater than the gas pressure. After the gas rail pressure has achieved an acceptable shutdown pressure, the engine is stopped. The gas rail pressure is then reduced to atmospheric pressure followed by the liquid fuel common rail being reduced to atmosphere pressure after stopping the engine. | 10-23-2014 |
20140316678 | AIR-FUEL RATIO DETECTION DEVICE AND AIR-FUEL RATIO DETECTION METHOD - When an air-fuel ratio detection performed by detecting an output of a downstream sensor, which is a limiting-current type air-fuel ratio sensor arranged at a downstream side of a catalyst in an exhaust passage of an internal combustion engine, and calculating an air-fuel ratio at the downstream side of the catalyst in accordance with the output, if the output is within a predetermined range including an output corresponding to a theoretical air-fuel ratio, a relationship between the output and an air-fuel ratio that is calculated by calculation means is shifted more to a rich side relative to a correspondence relationship between an output of an upstream sensor, which is a similar sensor to the downstream sensor arranged at an upstream side of the catalyst in the exhaust passage of the engine, and an air-fuel ratio. | 10-23-2014 |
20140324321 | MULTIPLE MODE THROTTLE CONTROL - A multiple mode throttle control having a plurality of different modes to command the speed of a utility vehicle engine. The modes include a normal mode in which an electronic engine control unit commands engine speed to vary based on the position of the throttle pedal; a stationary mode in which the electronic engine control unit commands the engine to run at a fixed speed while the utility vehicle remains stationary based on a setting of an operator control connected to the electronic control unit; and a mobile mode in which the electronic engine control unit commands engine speed to vary while the utility vehicle is moving based on the position of the throttle pedal but not to exceed a maximum engine speed based on the setting of the operator control. | 10-30-2014 |
20140336902 | ELECTRICAL CONTROL UNIT - An electrical control unit includes a constant voltage supply unit which supplies a constant voltage to a fuel injector, a boosted voltage supply unit which supplies a boosted voltage to the fuel injector, a control unit which controls supply timings of the constant voltage supply unit and the boosted voltage supply unit, and an interrupter which interrupts electric current when a short-circuit occurs in the boosted voltage supply unit. When an interruption of the interrupter is not detected, the boosted voltage supply unit supplies boosted voltage to start a fuel injection and the constant voltage supply unit supplies constant voltage to continue the fuel injection. When an interruption of the interrupter is detected, the constant voltage supply unit and the boosted voltage supply unit advance an interrupted power supply start timing relative to a non-interrupted power supply start timing to prevent delay of a fuel injection start timing. | 11-13-2014 |
20140343824 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - The present invention addresses a solution of improving precision with which requested torque at a time of a transient operation is realized in a control device for an internal combustion engine that controls torque that is generated by an internal combustion engine by control of an air amount by means of a throttle. To this end, the present control device calculates a target intake pipe pressure for realizing a target air amount, and calculates predicted pump loss from the target intake pipe pressure. By adding the predicted pump loss to requested torque to the internal combustion engine, 360° indicated requested torque that should be realized in a compression/expansion strokes is calculated. An air amount for realizing the 360° indicated requested torque is calculated as the target air amount, and an opening of the throttle is determined based on the target air amount. | 11-20-2014 |
20140358403 | METHOD FOR CYLINDER EQUALIZATION OF A LAMBDA-CONTROLLED INTERNAL COMBUSTION ENGINE, IN PARTICULAR OF A MOTOR VEHICLE - In a method for cylinder equalization of a lambda-controlled internal combustion engine of a motor vehicle, cylinders to be tested are trimmed with respect to the mixture composition of metered fuel, and the cylinder equalization is carried out on the basis of an uneven running or uneven running change of the internal combustion engine caused by the trimming. In addition, the uneven running or uneven running change is detected in a reference state of the internal combustion engine. The uneven runnings or uneven running changes detected during successive trimmings of the cylinders to be tested are and compared to the uneven running values detected in the reference state. | 12-04-2014 |
20140379237 | CONTROLLERS AND METHODS FOR A FUEL INJECTED INTERNAL COMBUSTION ENGINE - An internal combustion engine has a fuel injector that is controlled by an engine control unit. According to one embodiment a device receives from a temperature sensor information corresponding to the temperature of the engine. The device transmits substitute temperature information to the engine control unit when the temperature of the engine is within a predetermined range of temperatures. The substitute temperature information corresponds to a temperature that is different than the actual temperature of the ICE. The engine control unit controls the fuel injector so that it operates in response to the substitute temperature information. | 12-25-2014 |
20140379238 | Method For Operating An Injection System - A method is provided for operating an injection system of a motor vehicle, which injection system is designed as an adjusting system having volumetric flow rate control via a normally open inlet valve. If a fault of the inlet valve leading to undesired closing of the inlet valve is detected, the inlet valve is closed already during the suction phase of the high-pressure pump by applying current and is opened again during a part of the suction phase corresponding to a pumping demand in order to thereby control or at least reduce the flow rate of the high-pressure pump. Thus, corresponding safety measures, such as a pressure-limiting valve in the high-pressure region, can be omitted. | 12-25-2014 |
20140379239 | INTERNAL COMBUSTION ENGINE START CONTROL DEVICE AND CONTROL METHOD - An internal combustion engine | 12-25-2014 |
20140379240 | METHOD AND SYSTEM FOR ESTIMATING FUEL COMPOSITION - Methods and systems are provided for operating a fuel system configured to deliver a gaseous fuel to an engine. Following tank refilling, the fuel composition is selectively updated based on fuel tank pressure, temperature, and air content data. When the engine is subsequently restarted, the fuel rail is primed for a duration based on the updated composition. | 12-25-2014 |
20150012205 | CONTROL UNIT FOR VEHICLE DRIVING DEVICE - A control device of a vehicle drive device includes an engine having a supercharger and an automatic transmission outputting power of the engine to drive wheels. When an upshift of the automatic transmission is performed by executing an acceleration operation, if a progress status of a supercharging pressure increase in a supercharger pressure increasing process by the supercharger is a status in an initial period of the increasing process, a supercharging pressure increase degree before start of an inertia phase of the upshift is made smaller than a supercharging pressure increase degree after a predetermined timing subsequent to the start of the inertia phase, while if the progress status of the supercharging pressure increase is a status in an ending period of the increasing process, the supercharging pressure increase degree before the start of the inertia phase is made larger than the supercharging pressure increase degree after the predetermined timing. | 01-08-2015 |
20150019110 | FUEL INJECTION CONTROL DEVICE AND FUEL INJECTION CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - An electronic control unit detects a manner of fluctuation of a fuel pressure with injection of fuel by a fuel injection valve with the use of a fuel pressure sensor, and calculates a tendency of deviation of an actual fuel injection characteristic of the fuel injection valve with respect to a basic fuel injection characteristic on the basis of a result of comparison between a detected temporal waveform and a basic temporal waveform. The tendency of deviation is reflected at a predetermined reflection rate (R) at the time of updating a learned value (Gij) for compensating for an individual difference of the fuel injection valve. The predetermined reflection rate (R) is increased when an accumulated value (D) of a vehicle travel distance is shorter than a predetermined value (Dth) as compared with when the accumulated value (D) is longer than or equal to the predetermined value (Dth). | 01-15-2015 |
20150025774 | FUEL MIXTURE SYSTEM AND ASSEMBLY - A system and attendant structural assembly operative to establish a coordinated mixture of gaseous and distillate fuels for an engine including an electronic control unit (ECU) operative to monitor predetermined engine data determinative of engine fuel requirements and structured to regulate ratios of the gaseous and distillate fuel of an operative fuel mixture for the engine. The system and assembly includes at least one mixing assembly comprising an integrated throttle body and air gas mixer directly connected to one another, wherein the throttle body is disposed in fluid communication with a pressurized gaseous fuel supply and the air gas mixer is disposed in fluid communication with a flow of intake air to a combustion section of the engine. In use, the throttle body is structured to direct a variable gaseous fuel flow directly to the air gas mixer for dispensing into the intake air flow to the combustion section. | 01-22-2015 |
20150025775 | FUEL MIXTURE SYSTEM AND ASSEMBLY - A system and attendant structural assembly operative to establish a coordinated mixture of gaseous and distillate fuels for an engine including an electronic control unit (ECU) operative to monitor predetermined engine data determinative of engine fuel requirements and structured to regulate ratios of the gaseous and distillate fuel of an operative fuel mixture for the engine. The system and assembly includes at least one mixing assembly comprising an integrated throttle body and air gas mixer directly connected to one another, wherein the throttle body is disposed in fluid communication with a pressurized gaseous fuel supply and the air gas mixer is disposed in fluid communication with a flow of intake air to a combustion section of the engine. In use, the throttle body is structured to direct a variable gaseous fuel flow directly to the air gas mixer for dispensing into the intake air flow to the combustion section. | 01-22-2015 |
20150025776 | FUEL SUPPLYING CONTROLLER - In a fuel supplying controller detecting a clogging of a fuel filter, a timer count portion includes a steady count portion and an unsteady count portion. The steady count portion adds a steady count value to a timer counter in a steady state where a vehicle-state value is less than a threshold. The unsteady count portion adds an unsteady count value that is greater than the steady count value to the timer counter in an unsteady state where the vehicle-state value is greater than or equal to the threshold. | 01-22-2015 |
20150032357 | BAROMETRIC PRESSURE INFERENCE BASED ON TIRE PRESSURE - Methods and systems for detecting barometric pressure (BP) changes based on tire pressure changes are disclosed. In one example approach, a method comprises adjusting an evaporative leak detection threshold based on a change in barometric pressure, where the change in barometric pressure is based on a tire pressure change. | 01-29-2015 |
20150039206 | CALIBRATION SYSTEMS AND METHODS FOR MODEL PREDICTIVE CONTROLLERS - A tangible computer readable medium of a vehicle includes object code referencing a plurality of variables, the object code for: identifying sets of possible target values based on air and exhaust setpoints for an engine; generating predicted parameters based on a model of the engine and the sets of possible target values, respectively; selecting one of the sets of possible target values based on the predicted parameters; setting target values based on the selected one of the sets of possible target values, respectively; and controlling opening of a throttle valve based on a first one of the target values. The tangible computer readable medium also includes calibration data stored separately and that includes predetermined values for the variables referenced in the object code, respectively. At least one processor executes the object code using the predetermined values to perform the identifying, the generating, the selecting, the setting, and the controlling. | 02-05-2015 |
20150039207 | Method and Apparatus for Estimating an Alcohol Concentration in an Alcohol Fuel Mixture Supplied to an Internal Combustion Engine - The present invention relates to a method and an apparatus for estimating an alcohol concentration in an alcohol fuel mixture supplied to an internal combustion engine, wherein the operation of the internal combustion engine supplied with the alcohol fuel mixture is operated in a stoichiometric condition, a first parameter is determined on the basis of a signal from a pressure sensor sensing the pressure inside a combustion chamber of the internal combustion engine being controlled in the stoichiometric condition, and the alcohol concentration of the alcohol fuel mixture is determined on the basis of the determined first parameter and a relation between the first parameter and the alcohol concentration of the alcohol fuel mixture. | 02-05-2015 |
20150046063 | EXHAUST GAS SENSOR DIAGNOSIS AND CONTROLS ADAPTATION - Methods and systems are provided reusing processed sensor data to identify multiple types of sensor degradation. In one example, a central peak of a distribution, such as a generalized extreme value distribution, of sensor readings is re-used to identify asymmetric sensor degradation and stuck in-range sensor degradation. | 02-12-2015 |
20150046064 | ENGINE OPERATION WITH AIR SYSTEM MODEL - A system is described for modeling various states of an operating engine and the adjustment of one or more operating characteristics of the engine based upon such modeling. A representative rate of change of a system mass for an engine is determined based upon, at least in part, a first state equation. A first representative mass flow approximating a mass flow across a throttle is determined based upon, at least in part, a second state equation. A second representative mass flow approximating a mass flow across an exhaust gas recirculation valve is determined based upon, at least in part, a third state equation. Determining the first representative mass flow includes specifying a throttle time constant modifier for the second state equation. Determining the second representative mass flow includes specifying an exhaust gas recirculation valve time constant modifier for the third state equation. | 02-12-2015 |
20150051809 | VARIABLE DISPLACEMENT ENGINE CONTROL SYSTEM AND METHOD - Methods and systems are provided for improving the performance of a variable displacement engine. Split injection and spark retard may be used in active cylinder during a VDE mode to heat an exhaust catalyst and extend the duration of VDE mode operation. Split injection and spark retard may also be used in reactivated cylinders at a time of cylinder reactivation to improve restart combustion stability. | 02-19-2015 |
20150051810 | METHOD AND SYSTEM FOR DETERMINING DIESEL ENGINE AIRFLOW IN AN ENGINE USING A LATE INTAKE VALVE CLOSURE STRATEGY - A method can determine diesel engine airflow in a diesel internal combustion engine using a late intake valve closure (LIVC) strategy. The method includes monitoring the air temperature in an intake manifold to determine an intake manifold air temperature; monitoring a coolant temperature; and determining the air temperature in an intake port of a diesel internal combustion engine. The method includes monitoring the air pressure in the intake manifold and monitoring the engine speed of the diesel internal combustion engine. Moreover, the method includes determining the air density in the diesel internal combustion engine and determining a diesel engine airflow; and determining an intake valve closure crank angle. The method additionally includes determining an adjusted diesel engine airflow based on the diesel engine airflow, engine speed, and intake valve closure crank angle. | 02-19-2015 |
20150066335 | OUTPUT CONTROL DEVICE FOR VEHICLE - An output control device includes a vehicle speed detection unit configured to detect a vehicle speed, an accelerator pedal opening detection unit configured to detect an accelerator pedal opening, a basic correction amount calculation unit and a first basic throttle opening calculation unit. The basic correction amount calculation unit calculates a basic correction amount, which increases with an increase in the vehicle speed. The first basic throttle opening calculation unit calculates a basic throttle opening based on the basic correction amount and the values of two virtual throttle openings. | 03-05-2015 |
20150073681 | ROTATIONAL SENSOR AND CONTROLLER - Engine control systems having rotational sensors and controllers, and associated methods and systems, are disclosed herein. An engine control system in accordance with a particular embodiment can include a drum operably coupled to a rotating shaft of an engine. The drum can include a pattern positioned on its surface and a sensor can be positioned proximate to the drum to read the pattern and/or write a new pattern. A rod can operably couple the drum to an engine input mechanism and operate to axially move the drum. The axial movement of the drum can shift the pattern to different portions, resulting in a change in the timing for an engine event. | 03-12-2015 |
20150088401 | THROTTLE LEARNING CONTROL APPARATUS - There is obtained a throttle learning control apparatus that raises the reliability of throttle fully closed and opened learning even when a self-shutoff delay abnormality occurs and can suppress various defects that occur when a throttle fully closed learning value or a throttle fully opened learning value is not updated. After a self-shutoff delay abnormality occurs, an electronic control unit implements fully closed learning 1 and fully opened learning 1 while the engine is operated in a non-engine-stall period and implements fully closed learning 2 and fully opened learning 2 for compensating the fully closed learning 1 and fully opened learning 1. Fully closed learning is completed when the fully closed learning 1 or the fully closed learning 2 has once been implemented; similarly, fully opened learning is completed when the fully opened learning 1 or the fully opened learning 2 has once been implemented. | 03-26-2015 |
20150094933 | COLD START EMISSIONS REDUCTION DIAGNOSTIC SYSTEM FOR AN INTERNAL COMBUSTION ENGINE - A cold start emissions reduction diagnostic system for an internal combustion engine includes a coolant temperature module including a coolant temperature input, and a memory module having a coolant temperature look-up table. The cold start controller also includes a cold start emissions reduction module configured to selectively compare coolant temperature values with desired emission values in the look-up table to determine at least one of a fuel injection timing and a fuel injection quantity to establish a desired cold start emissions profile. A fuel injection monitoring module is configured and disposed to sense changes in fuel injection timing and fuel injection quantity, and an emission reduction diagnostic model module is configured and disposed to determine emission parameters based on the changes in the one of the fuel injection timing and fuel injection quantity sensed by the fuel injection monitoring module during a cold start. | 04-02-2015 |
20150105995 | VISCOSITY DETECTION USING SUMP - Various methods for inferring oil viscosity and/or oil viscosity index in an internal combustion engine are provided. In one aspect, a new control method comprises: after engine shutdown, learning engine oil viscosity based on time to drain the oil back into an engine sump and oil temperature during the draining, and correcting an engine operating parameter based on the learned oil viscosity. | 04-16-2015 |
20150105996 | VISCOSITY DETECTION USING STARTER MOTOR - Various methods for inferring oil viscosity and/or oil viscosity index in an internal combustion engine are provided. In one example, a new control method comprises cranking the engine during a start mode with an electric motor connected to a substantially constant source of electrical power, inferring engine oil viscosity based at least on engine oil temperature and speed of the engine while being cranked by the electric motor during the start mode, and correcting an operating parameter of the engine based on the inferred engine oil viscosity. | 04-16-2015 |
20150105997 | METHOD AND DEVICE FOR MONITORING A DRIVE OF A MOTOR VEHICLE - A method for the safe operation of a drive of a motor vehicle, including rotational speed monitoring in which, if an actual rotational speed (n) of an internal combustion engine exceeds a predefinable lower rotational speed threshold (n_max_lower), a fault response action is carried out, the fault response action being selected as a function of whether additional predefinable conditions are present. | 04-16-2015 |
20150112574 | Method of Controlling Banks in Vehicle Using CDA - A method of controlling banks in a vehicle using cylinder deactivation (CDA) may include determining whether the CDA of an engine of the vehicle is turned on or off, determining whether a temperature of a catalyst is below a predetermined temperature if it is determined that the CDA is turned on, switching from a second bank including first, third and fifth cylinders to a first bank including second, fourth and sixth cylinders or from the first bank to the second bank if it is determined that the temperature of the catalyst is below the predetermined temperature, so that the first and second banks maintain the temperature of the catalyst above the predetermined temperature. | 04-23-2015 |
20150112575 | METHOD AND APPARATUS FOR DIAGNOSING A FUEL PRESSURE SENSOR - A device executes a power limiting process when the number of pressure sensors determined to be normal in a second determination process made by a second processing unit is smaller than or equal to one. When only one pressure sensor is determined to be normal through the second determination process, and when that pressure sensor and a pressure sensor connected to only a first processing unit are determined to be normal in a first determination process made by the first processing unit, a process associated with fuel injection based on a detected value of the pressure sensor determined to be normal in the second determination process is executed, and a degree of limiting engine power through the power limiting process is reduced as compared with when both the pressure sensors are determined to be abnormal in the first determination process. | 04-23-2015 |
20150120169 | CONTROL MEANS AND METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE - A method for operating an internal combustion engine is described in which a combustion air ratio (λ) is determined and used to determine a deviation of this combustion air ratio from an in particular default or determined set point combustion air ratio. Spontaneous ignition of the internal combustion engine are detected based on the determined deviation (Δλ) and used to control the operation of the engine. | 04-30-2015 |
20150127241 | ENGINE RESPONSE ADJUSTMENT - Methods and systems are provided for adjusting an engine output delivered in response to an operator pedal actuation based at least on a grade of vehicle travel. During uphill travel, in the presence of headwinds, and/or in the presence of a vehicle payload, the output may be increased while during downhill travel or in the presence of tailwinds, the output may be decreased. In this way, driver fatigue during travel over varying elevations, varying ambient conditions, and varying loads can be reduced. | 05-07-2015 |
20150134230 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE, AND INTERNAL COMBUSTION ENGINE - A method for operating an internal combustion engine is provided. The internal combustion engine has a compressor for adjusting a charge density in an intake pipe of the internal combustion engine and has an adjusting device, such as a variable valve gear, for adjusting a volumetric efficiency of the internal combustion engine. A dynamic setpoint quantity for the internal combustion engine is determined as a function of a difference between a load demand upon the internal combustion engine and a current load output of the internal combustion engine. The volumetric efficiency and the charge density are adjusted as a function of the dynamic setpoint quantity. An internal combustion engine and a vehicle are also provided. | 05-14-2015 |
20150142295 | MONITORING METHOD FOR MONITORING A FUEL INJECTOR OF AN INTERNAL COMBUSTION ENGINE OF A VEHICLE - Disclosed is a method for monitoring a fuel injector, the injector including a piezoelectric actuator controlling a valve unit to open or close the injector, the fuel injector including an actuator play. The method includes: measuring a plurality of compensation times of the actuator play during a simulation step preceding an injection for a given plurality of fuel pressures; calculating a parameter representing the current actuator play per the measured compensation times; comparing the parameter representing the calculated current actuator play with a predetermined reference parameter of the actuator play; and transmitting a warning message if the reference parameter is exceeded; the parameter representative of the current actuator play being calculated on the basis of a polynomial function of the measured compensation times. The polynomial order of the polynomial function corresponding to the number of measured compensation times of the actuator play for different fuel pressures. | 05-21-2015 |
20150142296 | MULTI-CYLINDER INTERNAL COMBUSTION ENGINE AND METHOD FOR OPERATING A MULTI-CYLINDER INTERNAL COMBUSTION ENGINE - A method for partial cylinder cutoff is provided. The method comprises operating a multi-cylinder internal combustion engine with applied ignition, in which an odd number n of cylinders is arranged in line, and during partial-load operation when engine load is below threshold, enabling a partial cutoff of the cylinders, the partial cutoff comprising operating each cylinder only intermittently such that each cylinder is fired and cut off in turn at an interval of (2*720° CA)/n. | 05-21-2015 |
20150149062 | INJECTOR CONTROL - A method for controlling the operation of a valve of a fuel injector. The method may include selecting an electrical current waveform from a plurality of selectable electrical current waveforms. The selected electrical current waveform is provided to the valve, which may be operated to control a characteristic of an injection event, such as, for example, fuel pressure, injection timing, and/or fuel mass, among others. The method further includes detecting an aberrant combustion event from the combustion of the injected fuel. If an aberrant combustion event is detected, the electrical current waveform associated with the injection event may be disabled. Additionally, upon detection of an aberrant combustion event, a value corresponding to the number of detected aberrant combustion events is incremented, which may be used to determine whether or not to continue to disable the selected waveform. | 05-28-2015 |
20150292392 | THROTTLE CONTROL SYSTEM AND METHOD - A throttle control system for an Otto cycle combustion engine includes a compressor and an electric motor. The compressor is rotatable in both clockwise and counterclockwise directions, and has air inlet and outlet ports, the air outlet port being configured to provide intake air to an air intake system of the engine. The motor, operably connected to the compressor, is configured to operate in a first direction to rotate the compressor clockwise or counterclockwise, and in a second direction to rotate the compressor in a direction reverse of the first direction. An unobstructed air flow passage is disposed between the compressor and the air intake system of the engine. Operation of the motor in the first direction facilitates an increase in air pressure at the air intake system, and operation of the motor in the second direction facilitates a decrease in air pressure at the air intake system. | 10-15-2015 |
20150292418 | Modeling Oil Dilution Using A Multicomponent Model - A method for determining the composition of a fuel in a lubricant in an internal combustion engine in disclosed. The composition of a fuel having at least a first portion of a first fuel component and a second portion of a second fuel component is predefined. The mass flow with which the fuel is introduced into the lubricant in an introduction phase or discharged from the lubricant and from the housing in a discharge phase is determined. The composition of the mass flow is determined from a first mass flow of the first fuel component and a second mass flow of the second fuel component, which are determined based on a) an introduction parameter in the introduction phase or a discharge parameter in the discharge phase, and b) the first portion of the first fuel component and the second portion of the second fuel component in the fuel. | 10-15-2015 |
20150300273 | Natural Gas Quality Sensor and Method for Using the Same - A system and method for determining the quality of natural gas is provided. The system includes a fuel line for communicating natural gas to an engine. An infrared light source is disposed along the fuel line and is configured to emit a beam of infrared light into the fuel line having a wavelength of 6 to 10 micrometers. An infrared light detector detects a transmission value of the natural gas as the beam of infrared light passes through the fuel line. A natural gas quality module receives the transmission value from the infrared light detector and determines a quality value of the natural gas based on an amount of infrared light absorbed by methane in the natural gas. An engine control module, including a feed-forward control loop, receives the quality value from the natural gas quality module and alters an operating parameter of the engine in response thereto. | 10-22-2015 |
20150300287 | METHODS FOR DETECTING HIGH PRESSURE PUMP BORE WEAR - Methods are provided for detecting high pressure pump bore wear, wherein wear between a piston and bore of a pump may cause an excessive amount of fuel to leak out of a compression chamber of the pump. A reliable method is needed that involves a pump performance model that incorporates a number of physical effects and is verified by real high pressure pump test data. A method is proposed that involves comparing a target pump rate based on the pump performance model to a real fuel injection rate in order to determine if an abnormal amount of fuel may be leaking from the high pressure pump. | 10-22-2015 |
20150308399 | Electronic Control Module with Driver Banks for Engines - An engine control module (ECM) having a plurality of driver banks is provided. Each of the driver banks is configured to drive a plurality of combustion control elements. The driver banks include two low side driver circuits and a high side driver circuit, the high side driver circuit in each of the plurality of driver banks being shared pairwise by two combustion control elements. Each one of said at least two low side driver circuits is respectively associated with the two combustion control elements. The ECM includes a field programmable gate array (FPGA) coupled to the plurality of driver banks and configured to provide firing signals to at least twelve high side driver circuits to simultaneously drive at least twelve combustion control elements respectively coupled to the at least twelve high side driver circuits. | 10-29-2015 |
20150315947 | OPERATION CONTROL APPARATUS AND METHOD FOR INTERNAL COMBUSTION ENGINE (AS AMENDED) - There is provided an operation control method for an internal combustion engine, in which if an exhaust gas purifier needs to be warmed, a second glow plug is heated in an exhaust passage upstream of the purifier to a fuel ignition temperature or higher while fuel supplied to the exhaust passage is ignited and burned. In this method, if it is determined that the purifier and an engine need to be warmed, a first glow plug disposed in a combustion chamber is first heated to a predetermined temperature prior to the warm-up of the purifier to start the warm-up of the engine, and then the second glow plug begins to be heated when the temperature of the purifier is equal to or higher than a glow plug energization starting temperature which is lower than a warm-up start determination temperature of the purifier. | 11-05-2015 |
20150315990 | DIESEL ENGINE COMBUSTION AND TEMPERATURE MANAGEMENT SYSTEM - A diesel engine combustion and temperature management system includes injection nozzles for injecting plural fuel additives into an intake of the diesel engine and a controller controlling the amount of each fuel additive injected as a function of engine load, engine speed, exhaust temperature, and/or other parameters. | 11-05-2015 |
20150316016 | ENGINE AUTOMATIC-STOP/RESTART SYSTEM AND ENGINE AUTOMATIC-STOP/RESTART METHOD - An engine automatic-stop/restart system includes a starting apparatus drive start setting unit that sets in an output comparison register a starting apparatus drive starting time instant obtained by adding a calculated starting apparatus drive start waiting time to a present time instant read from a free-running counter and that starts drive of a starting apparatus when the set starting apparatus drive starting time instant and the value of the free-running counter coincide with each other. | 11-05-2015 |
20150322879 | METHOD AND SYSTEM FOR DIRECT INJECTION NOISE MITIGATION - A method is provided which mitigates the noise of a direct injection system in a port fuel injection and direct fuel injection (PFI-DI) engine and reduces NVH hardware. During a cold-start, the engine idle speed may be increased to mitigate the direct injection noise and during a warm idle, the engine cooling fan may be turned on during a direct injector cleanout cycle to mitigate the direct injection noise. This allows the PFI-DI engine to be run more efficiently without concern of the noise produced by the direct injectors and high pressure pump of the direct injection system. | 11-12-2015 |
20150330272 | ENGINE STARTING CONTROL STRATEGY - An elapsed time from a time at which the engine last ceased running until a time of occurrence of an engine start command which causes the cranking motor and the lubrication pump to operate is measured. The onset of fueling of the engine cylinders is a function of the elapsed time measured. | 11-19-2015 |
20150337748 | APPARATUS AND METHOD FOR CONTROLLING AIR SYSTEM OF DIESEL ENGINE - An apparatus for controlling an air system of a diesel engine in a steady state. The air system comprises a waste gas recycling system and a turbocharging system. The apparatus comprises: a working condition acquisition device, configured to acquire a parameter for indicating an practical working condition of a diesel engine; a decoupling calculation device ( | 11-26-2015 |
20150345457 | AUTOMATIC STOPPING AND RESTARTING DEVICE OF INTERNAL COMBUSTION ENGINE - In an automatically stopped internal combustion engine, a rotation speed at next and subsequent ignition timings is predicted at every ignition timing of the internal combustion engine after the internal combustion engine is stopped automatically. Whether self-restorable restarting is allowed is determined according to a comparison result of the predictive rotation speed and a self-restoration determination rotation speed, so that self-restorable restarting is performed in a reliable manner. | 12-03-2015 |
20150361913 | METHOD AND APPARATUS FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE WITH A LAMBDA SENSOR - A method for controlling an internal combustion engine includes commanding operation of the engine at a selected air/fuel ratio and adjusting a signal output from a lambda sensor corresponding to the selected air/fuel ratio. A controller executes control of the engine based upon the adjusted signal output from the lambda sensor corresponding to the selected air/fuel ratio. | 12-17-2015 |
20150369149 | VEHICLE DRIVE CONTROL DEVICE - A vehicle drive control device in a vehicle including an engine comprising a throttle valve and a supercharger with an air bypass valve changed from a closing side to an opening side when a closing speed of the throttle valve is higher than a speed determination value, the vehicle drive control device providing a torque-down control of the engine by operating the throttle valve to a closing side, wherein at the time of provision of the torque-down control of the engine in which the throttle valve is operated to the closing side when a rotation speed of the engine is equal to or greater than a predetermined rotation speed and a speed ratio of a torque converter is equal to or less than a predetermined value in a supercharged state, the throttle valve is caused to perform a closing operation at the closing speed lower than the speed determination value. | 12-24-2015 |
20150377165 | ADAPTIVE CAM ANGLE ERROR ESTIMATION - Methods and systems for correcting cam angle measurements for engine-to-engine build variation are disclosed. In one example, a method comprises learning cam angle corrections to update a measured cam angle responsive to air-fuel ratio errors during selected conditions, and learning air and fueling errors responsive to the air-fuel ratio error otherwise. In this way, cam angle errors due to engine build variation may be corrected, thereby improving other air and fuel adaptation methods and improving engine emissions. | 12-31-2015 |
20160003183 | Determining The Opening Energy Of A Fuel Injector - A method for determining the opening energy of a fuel injector of an internal combustion engine includes (a) operating the engine in a steady-state operating state, wherein electrical excitation is applied to the fuel injector to cause a fuel injection in each working cycle of the engine, (b) applying additional electrical excitation to the fuel injector for subsequent working cycle(s) for a possible additional partial fuel injection, wherein the additional electrical excitation is initially insufficient to cause an additional partial fuel injection, (c) successively increasing the additional electrical excitation until an additional partial fuel injection occurs, which brings about a second operating state of the engine different from the steady-state operating state, (d) detection of the second operating state, and (e) determination of the opening energy for the fuel injector based on the energy of the additional electrical excitation needed to bring about the second operating state of the engine. | 01-07-2016 |
20160016592 | VEHICLE DRIVER-MODEL CONTROLLER WITH ENERGY ECONOMY RATING ADJUSTMENTS - A controller with energy economy rating (EER) calibration logic is configured to adjust a look-ahead time and feed-forward mapping window for vehicle controls according to EER. | 01-21-2016 |
20160017818 | FUEL INJECTION CONTROL APPARATUS OF INTERNAL COMBUSTION ENGINE - A fuel injection control apparatus of an internal combustion engine, which can appropriately control the amount of fuel injection from an in-cylinder injection valve so as to achieve a desired air-fuel ratio, regardless of the operating state of the internal combustion engine, is provided. The fuel injection control apparatus comprises: an additional injection means which, when determining that the operating state of the internal combustion engine is a transient state, allows the in-cylinder injection valve to inject a fuel amount conformed to a changing intake air amount; and a subtraction means for subtracting a minimum fuel amount, injectable from the in-cylinder injection valve, from a fuel amount to be injected, before injection by the additional injection means is performed. | 01-21-2016 |
20160017851 | FUEL INJECTION AMOUNT CONTROL DEVICE - An EFI-ECU determines an initial value of a correction value ekthwst for correcting an injection correction amount with reference to a non-heating initial value map if a heater is in operation, and determines the initial value of the correction value ekthwst for correcting the injection correction amount with reference to a heating initial value map if the heater is out of operation. It should be noted herein that the initial value of the correction value ekthwst is set lower under the same condition in the heating initial value map than in the non-heating initial value map. | 01-21-2016 |
20160025020 | OPTIMIZATION-BASED CONTROLS FOR DIESEL ENGINE AIR-HANDLING SYSTEMS - System, apparatus, and methods are disclosed for a computing a first set of parameters based on operational states of an internal combustion engine and an air handling system, a second set of parameters based on a linear time varying model, and one or more control commands based upon a minimization or maximization of a cost function over a prediction horizon, the second set of parameters, and at least one physical constraint of the internal combustion engine, and controlling one or more operations based at least in part upon the one or more control commands. The acts of determining the first and second set of parameters and computing the one or more control commands are repeated over a plurality of time periods over which the first set of parameters and the second set of parameters are time variant. | 01-28-2016 |
20160031541 | WATERCRAFT AND MARINE PROPULSION DEVICE - A watercraft includes a hull, an engine, a fuel supply system, a phase separation detecting sensor, a control unit, and an informing device. The engine is attached to the hull. The fuel supply system includes a fuel tank and a fuel pipe. The fuel tank is disposed on the hull. The fuel pipe connects the fuel tank and the engine. The phase separation detecting sensor is attached to the fuel supply system and is configured to detect a possibility of occurrence of phase separation in a fuel. The control unit is configured or programmed to output an informing signal when a determination is made that the possibility of occurrence of phase separation in the fuel is high on a basis of an output of the phase separation detecting sensor. The informing device is configured to inform that the possibility of occurrence of phase separation in the fuel is high when receiving the informing signal from the control unit. | 02-04-2016 |
20160032848 | FUEL PROPERTY DETERMINATION APPARATUS FOR INTERNAL COMBUSTION ENGINE - A apparatus for an engine, and the apparatus includes an ECU. The ECU is configured to (i) perform a feedback control such that the engine speed converges to a target speed by correcting ignition timing during the feedback control, (ii) make a determination that fuel supplied to the engine is a heavy fuel when an ignition fulfillment rate is equal to or greater than a predetermined threshold value within a predetermined period after the engine is started, the ignition fulfillment rate is a ratio of the advance correction amount of the ignition timing to a maximum ignition correction range, the maximum ignition correction range is a maximum range in which the ignition timing is corrected during the feedback control, and (iii) set the threshold value to a value that depends on a temperature representative value of the engine, the temperature representative value is correlated with the engine temperature. | 02-04-2016 |
20160032849 | METHOD AND APPARATUS FOR FUEL REGULATION - A method for fuel regulation during a non-motoring operating mode of an internal combustion engine is provided. A fuel regulator employs a first fuel to regulate pressure of a second fuel. The first fuel is communicated to the fuel regulator through a first fuel circuit. The method comprises actuating a fuel injector that introduces the first fuel and the second fuel into a combustion chamber of the internal combustion engine during the non-motoring operating mode. The fuel injector is actuated with an injection command signal having a pulse width below a predetermined maximum value whereby no fuel is injected into the combustion chamber and the first fuel drains from the first fuel circuit through the fuel injector to a supply tank. | 02-04-2016 |
20160032855 | ENGINE CONTROL STRATEGY AND FEEDBACK SYSTEM - In at least some implementations, an engine control process includes an engine speed test and other steps. The engine speed test includes the steps of a) determining a first engine speed, b) changing the air/fuel ratio of a fuel mixture delivered to the engine, and c) determining a second engine speed after at least some of the air/fuel ratio changing event, Based at least in part on the difference between the first engine speed and the second engine speed it is determined if a change in the air/fuel ratio of the fuel mixture delivered to the engine is needed. If a change to the air/fuel ratio was indicated, the air/fuel ratio of a fuel mixture delivered to the engine is changed, | 02-04-2016 |
20160047297 | METHOD FOR CONTROLLING A VARIABLE CHARGE AIR COOLER - Embodiments for a charge air cooler are provided. In one example, an engine method comprises during a first mode, decreasing a volume of a charge air cooler in response to a compressor operation upstream of the charge air cooler. In this way, compressor surge may be prevented. | 02-18-2016 |
20160053705 | SEMICONDUCTOR DEVICE, ANALOG-TO-DIGITAL CONVERSION METHOD, ONBOARD SYSTEM, AND MEASUREMENT METHOD - There is provided a semiconductor device including: an integrator that repeats integrating a first reference voltage after integrating an analog signal; a comparator that compares an output of the integrator and a second reference voltage; a counter circuit that counts a first integration time determined to integrate the analog signal, and a second integration time until the output of the integrator reaches the second reference voltage from start of integration of the first reference voltage; a calculation circuit that calculates a digital value of the analog signal based on the first and the second integration times; a control circuit that performs control so that the analog signal is input to the integrator while the counter circuit counts the first integration time; and an integration time update circuit that updates the first integration time counted by the counter circuit based on the second integration time counted thereby. | 02-25-2016 |
20160053706 | METHOD FOR OPERATING A COMMON-RAIL SYSTEM OF A MOTOR VEHICLE HAVING A REDUNDANT COMMON-RAIL-PRESSURE SENSOR - A method for operating a common-rail system of a motor vehicle that includes a common-rail-pressure sensor configuration having at least two signal paths, and that can be operated at a maximally permissible common-rail pressure and at a minimally permissible common-rail pressure. Sensor signals are read out in each case in response to a pressure measurement in a common rail of the common-rail system via the at least two signal paths, and a signal deviation value is ascertained that characterizes a deviation between the pressure values that are each determined on the basis of the sensor signals. The method includes reducing the maximally permissible common-rail pressure by a correction value to a maximally permissible emergency common-rail pressure and/or increasing the minimally permissible common-rail pressure by a correction value to a minimally permissible emergency common-rail pressure in response to the signal deviation value exceeding a predefined value. | 02-25-2016 |
20160061124 | VAPOR RETURN SYSTEM OF A FUEL VAPOR COLLECTING TANK - A vapor return system of a fuel vapor collecting tank includes a vapor outlet line with a first stop valve, which is arranged in the vapor outlet line of the fuel vapor collecting tank. A first vapor return branch is arranged between the vapor outlet line of the fuel vapor collecting tank and a charge air duct of a compressor in a turbocharger. A second vapor return branch is arranged between the vapor outlet line of the fuel vapor collecting tank and a fresh air suction duct of the compressor of the turbocharger. The first vapor return branch is connected by a first check valve to the charge air duct. The second vapor return branch is connected by a second check valve to a suction inlet of a venturi nozzle situated in a bypass line between the charge air duct and fresh air suction duct via a second stop valve. | 03-03-2016 |
20160061137 | METHOD FOR ADAPTING A COMMON-RAIL INJECTION SYSTEM OF AN INTERNAL COMBUSTION ENGINE - In a method for adapting at least one injector of an injection system, in particular of a common-rail injection system of an internal combustion engine of a motor vehicle, where injections take place based on a characteristics map with at least two input variables and at least one output variable, a transition is carried out into a learning mode in which only discrete values are permitted for one of the at least two input variables of the characteristics map. | 03-03-2016 |
20160069287 | SUBSTITUTION RATE CONTROL SYSTEM FOR AN ENGINE AND AN ASSOCIATED METHOD THEREOF - A method involves receiving a plurality of engine parameters and a sensed ambient operating condition during operation of an engine and determining a current substitution rate based on the plurality of engine parameter. The method also involves determining at least one of a pre-combustion temperature and an end gas temperature based on the plurality of engine parameters and the sensed ambient operating condition and determining a maximum substitution rate based on at least one of the pre-combustion temperature and the end gas temperature. The method further involves comparing the current substitution rate with the maximum substitution rate and controlling at least one engine parameter among the plurality of engine parameters if the current substitution rate is different from the maximum substitution rate so as to generate the current substitution rate to less than or equal to the maximum substitution rate. | 03-10-2016 |
20160069289 | Method For Measuring Fresh Air By Evaluating An Internal Cylinder Pressure Signal - A method for determining an air mass air in a cylinder of an internal combustion engine is disclosed. A first filling equivalent is determined during a compression phase of the cylinder, wherein the first filling equivalent corresponds to a first average pressure difference in a first angle range of a crank angle in the compression phase. A second filling equivalent is determined during an expansion phase of the cylinder, wherein the second filling equivalent corresponds to a second average pressure difference in a second angle range of the crank angle of the expansion phase. A differential filling equivalent is calculated by subtracting the first filling equivalent from the second filling equivalent. The air mass in the cylinder is determined based on the differential filling equivalent. | 03-10-2016 |
20160069291 | HYBRID POWERTRAIN AND METHOD OF OPERATING SAME - A method for operating a hybrid powertrain includes effecting a first mixture in a combustion chamber of an internal combustion engine while the internal combustion engine operates at a first predetermined load, the first mixture being lean of stoichiometric and being substantially homogeneous throughout the combustion chamber at a first start of combustion time; effecting a second mixture in the combustion chamber while the internal combustion engine operates at a second predetermined load, the second mixture being lean of stoichiometric and being substantially homogeneous throughout the combustion chamber at a second start of combustion time; and effecting a third mixture in the combustion chamber while the internal combustion engine transitions from the first predetermined load to the second predetermined load, the third mixture including a fuel-rich region being rich of stoichiometric at a third start of combustion time. | 03-10-2016 |
20160069303 | METHODS AND SYSTEMS FOR FUEL VAPOR METERING VIA VOLTAGE-DEPENDENT SOLENOID VALVE ON DURATION COMPENSATION - Methods and systems are provided for compensating a pulse width of a signal applied to a solenoid purge valve based on an input voltage, and delays in opening and/or closing the solenoid valve. | 03-10-2016 |
20160084180 | ENGINE FEEDBACK CONTROL SYSTEM AND METHOD - This disclosure provides a system and method for controlling internal combustion engine system to reduce operation variations among plural engines. The system and method utilizes single-input-single-output (SISO) control in which a single operating parameter lever is selected from among exhaust gas recirculation (EGR) fraction and charge air mass flow (MCF), and a stored reference value associated with the selected lever is adjusted for an operating point in accordance with a difference between a measured emissions characteristic and a pre-calibrated reference value of the emissions characteristic for that operating point. Adjusting the selected operating parameter lever towards the theoretical pre-calibrated reference value of the operating parameter lever for each of plural operating points can reduce engine-to-engine variations in engine out emissions. | 03-24-2016 |
20160084183 | METHOD FOR ADAPTING TRANSITION COMPENSATION - A method for adapting a transition compensation based on a lambda value change for operating an engine, which includes a combustion chamber having a first inlet opening connected to a first intake pipe having a first injector. The chamber includes a second inlet opening connected to a second intake pipe having a second injector. During normal operation, a predetermined fuel quantity is injected, and this quantity includes a first and second fuel quantities to be injected respectively via the first and second openings. In a first task, the first injector remains closed, and in a second task, the first injector is opened again. In the second task, a first test fuel quantity is injected into the combustion chamber via the first opening and a second test fuel quantity is injected via the second opening, the first and second test fuel quantities making up the predetermined fuel quantity. | 03-24-2016 |
20160084186 | Actuator/Sensor Device - An actuator/sensor device ( | 03-24-2016 |
20160090932 | VARIABLE VALVE LIFT DIAGNOSTIC SYSTEMS AND METHODS USING CAM PHASER DIFFERENTIAL OIL PRESSURE - A diagnostic system for a vehicle includes a difference module, a Fourier module, and a fault module. The difference module determines pressure differences for a camshaft revolution based on differences between: first pressures within first chambers of a camshaft phaser measured during the camshaft revolution, wherein the first pressures within the first chamber control advancement of the camshaft relative to a crankshaft of an engine; and second pressures within second chambers of the camshaft phaser measured during the camshaft revolution, wherein the second pressures within the second chamber control retardation of the camshaft relative to the crankshaft of the engine. The Fourier module performs a Fourier Transform (FT) based on the pressure differences to produce FT data. The fault module, based on the FT data, selectively indicates that a fault is present in a variable valve lift mechanism that is actuated by the camshaft. | 03-31-2016 |
20160090934 | METHOD AND SYSTEM FOR CONTROLLING ELECTRONIC THROTTLE CONTROL SYSTEM - A method for controlling an electronic throttle control (ETC) system, in which an electronic control unit (ECU) controls the ETC system using an air volume learning value containing information on a volume of air introduced into an engine for each opening degree of the ETC system according to carbon deposit of the ETC system, the method may include reading an air volume learning value used during a previous operation. The air volume learning value is compared to a preset learning value change reference value. Whether an operation condition of the engine satisfies a learning value change condition which is preset to change the air volume learning value, and whether the volume of air passing through the ETC system satisfies a preset learning-value-change-air-volume condition are determined. The air volume learning value used during the previous operation and stored in the ECU is substituted with a preset initial value of the air volume learning value. | 03-31-2016 |
20160102627 | Method and Control Unit for Calibrating a Drive of a Throttle Valve of an Internal Combustion Engine in a Motor Vehicle - A method for calibrating a drive of a throttle valve of an internal combustion engine of a motor vehicle includes detecting whether the internal combustion engine is currently running or is not running. The method further includes activating the drive to displace the throttle valve into a target position if it is detected that the internal combustion engine is currently not running. The method further includes calibrating a characteristic at the target position. A correlation between a rotor position of the drive and an output voltage of a throttle valve angle transducer follows a characteristic. | 04-14-2016 |
20160108843 | METHOD AND SYSTEM FOR CONTROLLING ENGINE USING COMBUSTION PRESSURE SENSOR - A method for controlling an engine which comprises a combustion pressure sensor includes receiving a combustion pressure signal from the combustion pressure sensor. An Indicated mean effective pressure (IMEP) deviation for each cylinder and an IMEP deviation for each driving cycle for the engine are calculated based on a combustion pressure according to the received combustion pressure signal. A main injection timing is set based on a difference between the calculated IMEP deviations for the each cylinder and a difference between the calculated IMEP deviations for the each driving cycle. The engine runs by injecting a fuel according to the set main injection timing. | 04-21-2016 |
20160108846 | METHOD AND DEVICE FOR OPERATION OF A HIGH PRESSURE FUEL PUMP - A method for function control of a high pressure pump ( | 04-21-2016 |
20160115877 | M INDEX DETERMINATION SYSTEMS AND METHODS FOR WIEBE FUNCTIONS - A parameter determination system includes first and second difference modules, a ratio module, and an M index module. The first difference module determines a first crankshaft angle of a combustion event of an engine, determines a second crankshaft angle of the combustion event of the engine, and determines a first difference between the first and second crankshaft angles. The second difference module determines a third crankshaft angle of the combustion event of the engine, determines a fourth crankshaft angle of the combustion event of the engine, and determines a second difference between the third and fourth crankshaft angles. The ratio module determines a ratio of the first difference to the second difference. The M index module determines an M index value for the Wiebe function based on the ratio and displays the M index value on a display. | 04-28-2016 |
20160123270 | INTERNAL COMBUSTION ENGINE - A post injection is utilized in a more effective manner. In an internal combustion engine which is provided with a fuel injection valve for injecting fuel into a cylinder of the internal combustion engine, in cases where a post injection is carried out after a main injection of fuel from the fuel injection valve, when a rotation speed of the internal combustion engine is equal to or more than a first predetermined speed, a penetration force of fuel in the post injection is made larger than a penetration force of fuel in the main injection, whereas when the rotation speed of the internal combustion engine is less than a second predetermined speed which is equal to or less than the first predetermined speed, the penetration force of fuel in the post injection is made smaller than the penetration force of fuel in the main injection. | 05-05-2016 |
20160131057 | FRESH AIR FLOW AND EXHAUST GAS RECIRCULATION CONTROL SYSTEM AND METHOD - A fresh air and exhaust gas control method and system for an engine air system with an air throttle and exhaust gas recirculation (EGR) valve. The method includes monitoring engine parameters; generating engine state estimates using an engine observer model; generating measured engine states based on the monitored engine parameters; computing observer error based on the differences between the measured and modeled engine states; generating model correction factors; and generating commands for adjusting the air throttle and EGR valve. An inverse engine observer model can generate the desired air throttle and EGR valve positions. The method can include generating feedback actuator commands in generating the desired air throttle and EGR valve positions. The correction factors can include fresh air, EGR and/or turbine mass flow correction factors. | 05-12-2016 |
20160131065 | SYSTEM AND METHODS FOR CBV DIAGNOSTICS - Methods and systems are provided for diagnosing compressor bypass valve degradation. In one example, a method may include indicating degradation of a compressor bypass valve coupled in a compressor bypass based on intake aircharge temperature measured upstream of a compressor inlet via an air charge temperature sensor. | 05-12-2016 |
20160131066 | METHOD FOR DIAGNOSING A VACUUM ACTUATOR - Methods and systems are described for diagnosing degradation of a vacuum actuator in an engine system. An example method comprises indicating degradation of the vacuum actuator based on an estimate of flow of air into and out of a vacuum reservoir. The estimate is further based on flow of air generated via each of an aspirator in the intake system, an actuation of the vacuum actuator, and leakage during the actuation of the vacuum actuator. | 05-12-2016 |
20160146126 | METHOD FOR PRE-IGNITION CONTROL IN A PRE-DELIVERY PHASE - Various systems and methods are described for controlling spark plug fouling and pre-ignition in a newly manufactured vehicle. One method comprises, during a pre-delivery phase of the newly manufactured vehicle including an engine, operating the engine with a first setting for air/fuel ratio to reduce spark plug fouling, and adjusting the first setting of the air/fuel ratio responsive to pre-ignition. | 05-26-2016 |
20160146135 | EXHAUST SYSTEM COMPONENT INPUT PRESSURE ESTIMATION SYSTEMS AND METHODS - An output pressure module that sets an output pressure of a first component of an exhaust system of the vehicle equal to one of: an input pressure of a second component that is immediately downstream of the first component in the exhaust system; and ambient air pressure. A pressure drop module determines a pressure drop between an input of the first component and an output of the first component based a temperature of exhaust input to the first component. An input pressure module determines an input pressure of the first component based on a sum of the output pressure of the first component and the pressure drop between the input and the output of the first component. An actuator control module selectively controls at least one engine actuator based on at least one of the input and output pressures of the first component. | 05-26-2016 |
20160146143 | COMMUNICATION SYSTEM, FLOW MEASURING DEVICE AND CONTROL DEVICE - A communication system includes a flow measuring device and a control device. The flow measuring device includes a flow sensor that generates a flow rate signal which is a signal in accordance with a flow rate of intake air drawn into an internal-combustion engine. The flow measuring device transmits the flow rate signal. The control device receives the flow rate signal and performs at least one of injection control of fuel to be supplied to the engine and ignition control at each cylinder of the engine based on the received flow rate signal. The flow measuring device includes a measurement-side transmitting part that transmits various signals by wireless communication, and transmits the flow rate signal by the measurement-side transmitting part. The control device includes a control-side receiving part that receives the various signals by the wireless communication, and receives the flow rate signal by the control-side receiving part. | 05-26-2016 |
20160153374 | Vehicle Control Device | 06-02-2016 |
20160153382 | METHOD FOR DETERMINING AT LEAST ONE INJECTION PARAMETER OF AN INTERNAL COMBUSTION ENGINE, AND INTERNAL COMBUSTION ENGINE | 06-02-2016 |
20160153520 | METHOD AND DEVICE FOR PROTECTING DUAL MASS FLYWHEEL OF VEHICLE | 06-02-2016 |
20160160779 | Prognostic Engine System and Method - An electronic controller for an engine is programmed to operate in a prognostic mode, in which a baseline record of combustion parameters is created and stored in non-volatile memory, and in a diagnostic mode, in which an operating set of combustion parameters is compiled. During operation, the electronic controller retrieves the baseline record and compares it with the operating set to determine, in real time during engine operation, whether an abnormal combustion is present in the cylinder. The electronic controller activates at least one failure flag when the abnormal combustion is determined to be present. | 06-09-2016 |
20160160783 | INJECTOR DRIVING APPARATUS - In an injector driving apparatus, a driving circuit supplies a current individually to each coil of multiple injectors, a current detection element detects the current flowing in a common current flow path, which is common to the coils, a current supply period guard part forcibly stops the current supplied from the driving circuit to the coil upon determination that a measured period reached a predetermined set period based on a detection result of the current detection element, and a diagnosis part operates in a period of no fuel injection to check whether the current supply period guard part normally stops the current supplied to the coil, by continuously supplying the current to the coil for only a short period, which disables the injector to open a valve, and sequentially switches over the coils. | 06-09-2016 |
20160160787 | CONTROLLER FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE OF A VEHICLE, IN PARTICULAR A COMMERCIAL VEHICLE - A controller for controlling an internal combustion engine of a vehicle is disclosed. The controller includes at least one real-time dynamic computational model of at least a part of the internal combustion engine, at least one offline optimized set-point as a first input to the computational model, at least one physical engine sensor input as a second input to the computational model, and a real-time optimizer configured to adjust at least one engine control signal on the basis of at least one output of the computational model in such a way that a deviation from a set-point is at least decreased. | 06-09-2016 |
20160169089 | METHODS AND SYSTEM FOR IMPROVING COMPRESSOR RECIRCULATION VALVE OPERATION | 06-16-2016 |
20160169091 | METHODS AND SYSTEM FOR COMPENSATING COMPRESSOR RECIRCULATION SLUDGE | 06-16-2016 |
20160169132 | SYSTEM AND METHOD FOR INCREASING TOLERANCE TO FUEL VARIATION | 06-16-2016 |
20160169140 | In-Range Sensor Fault Diagnostic System and Method | 06-16-2016 |
20160177848 | SYSTEM AND METHOD FOR ADJUSTING ENGINE AIRFLOW | 06-23-2016 |
20160177849 | SYSTEM AND METHOD FOR CONTROLLING ENGINE AIR FLOW | 06-23-2016 |
20160177859 | METHOD OF OPERATING AN INTERNAL COMBUSTION ENGINE | 06-23-2016 |
20160201579 | IGNITION FILTER FOR COMPRESSED AIR ENGINE | 07-14-2016 |
20160377004 | CONTROLLER FOR SUPERCHARGER-EQUIPPED INTERNAL COMBUSTION ENGINE - There is provided a controller, for a supercharger-equipped internal combustion engine, that can accurately estimate a supercharging pressure, without providing a pressure sensor for detecting the supercharging pressure. In a controller for a supercharger-equipped internal combustion engine, a correction value for correcting a supercharging pressure estimation value is changed so that an effective opening area estimation value, estimated based on a supercharging pressure estimation value and the like, approaches a preliminarily set effective opening area default value corresponding to a throttle opening degree detection value. | 12-29-2016 |
20160377005 | SYSTEMS AND METHODS FOR OPERATING AN EVAPORATIVE EMISSIONS SYSTEM - Methods and systems are provided for selectively cooling a fuel vapor canister based on vehicle operating conditions, or in response to an anticipated or requested refueling event. In one example, canister cooling elements are powered by solar cells coupled to the vehicle, thereby cooling the canister during conditions wherein bleed emissions are likely to occur. In this way, canister cooling may reduce hydrocarbon vapor bleed emissions without draining the vehicle battery, and may further provide opportunities to advantageously conduct leak tests on the evaporative emissions system. | 12-29-2016 |
20160377010 | METHOD FOR DIAGNOSING A FUNCTION OF AN INTERNAL COMBUSTION ENGINE - A method for diagnosing a function of an internal combustion engine, which includes one injector of an intake-manifold injection, one injector of a direct injection and one cylinder. Fuel may be applied to the cylinder with the aid of the injector of the intake-manifold injection and/or with the aid of the injector of the direct injection. The method includes the steps of determining an operating state of the internal combustion engine, which is characterized by an injection and/or injections used for injecting fuel into the cylinder, selecting a diagnostic function for the cylinder as a function of the determined operating state and carrying out the selected diagnostic function for the cylinder. | 12-29-2016 |
20160377015 | SYSTEMS AND METHODS FOR FUEL INJECTION - Methods and systems are provided for delivering fuel to a port injector fuel rail in a port fuel direct injection (PFDI) engine. In one example, the port injector fuel rail may receive fuel from each of a compression chamber and a step chamber of a direct injection fuel pump coupled in the PFDI engine. In this way, pressurized fuel may be supplied to the port injector fuel rail during an entire cycle of the direct injection fuel pump. | 12-29-2016 |
20160377016 | SYSTEMS AND METHODS FOR FUEL INJECTION - Methods and systems are provided for a direct injection fuel pump. In one example, pressure in a step chamber of the direct injection fuel pump may be regulated to a substantially constant pressure during an entire pump cycle including a compression stroke and a suction stroke. | 12-29-2016 |
20160377017 | SYSTEMS AND METHODS FOR FUEL INJECTION - Methods and systems are provided for pressurizing a step chamber of a direct injection fuel pump. In one example, the step chamber may be pressurized to a pressure higher than an output pressure of a lift pump, the lift pump supplying fuel to the direct injection fuel pump. The pressurization of the step chamber may occur during at least a portion of a pump stroke of the direct injection fuel pump. | 12-29-2016 |
20170234247 | TURBOCHARGED ENGINE CONTROL DEVICE | 08-17-2017 |
20170234248 | INTAKE AIR TEMPERATURE ESTIMATION SYSTEM FOR TURBOCHARGED ENGINE | 08-17-2017 |
20180023497 | METHOD AND SYSTEM FOR SENSOR RATIONALITY CHECK | 01-25-2018 |
20180023499 | FUEL CONTROL SYSTEMS AND METHODS FOR DELAY COMPENSATION | 01-25-2018 |