Class / Patent application number | Description | Number of patent applications / Date published |
123344000 | Charge proportion varying (e.g., the fuel-air ratio is varied) | 37 |
20080216795 | Engine braking method for an internal combustion engine having two serially arranged exhaust-gas turbochargers - In an engine braking method and an internal combustion engine including an engine braking arrangement, wherein the engine has high pressure and low pressure exhaust gas turbochargers connected in series, with a bypass ( | 09-11-2008 |
20080257305 | SYSTEM FOR CONTROLLING FUEL INJECTORS - An injector control system and method for an engine includes a distribution module that calculates a difference between a first average engine speed and a second average engine speed of an engine and a fuel offset module that offsets a learned fuel amount of a first fuel injector of a plurality of fuel injectors based on the difference. The learned fuel amount corresponds to an engine fueling range. | 10-23-2008 |
20080283023 | SYSTEM AND METHOD FOR TIP-IN KNOCK COMPENSATION - A system for an engine of a vehicle traveling on the road, the system comprising a cylinder of the engine; an emission control device coupled in an exhaust downstream of the cylinder; a first injector configured to directly inject into the cylinder and coupled in a cylinder of the engine; a second injector configured to inject into a port of the cylinder and coupled to a port of the cylinder; and a controller for, in response to a driver pedal tip-in condition, increasing an amount of injection from the first injector. | 11-20-2008 |
20100294239 | VARIABLE INTAKE MANIFOLD DIAGNOSTIC SYSTEMS AND METHODS - A system includes a control module, a valve control module, and a diagnostic module. The control module controls a valve of a variable intake manifold when the system operates in a first mode. The control module commands the valve to a first position when a desired airflow through the variable intake manifold is greater than a threshold and commands the valve to a second position when the desired airflow is less than the threshold. The valve control module controls the valve when the system operates in a second mode. The valve control module commands the valve to move from the second position to the first position when the desired airflow is less than the threshold. The diagnostic module determines an operating state of the valve based on whether the valve is detected at the first position a predetermined period after the valve control module commands the valve. | 11-25-2010 |
20130247869 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A control apparatus for an internal combustion engine is provided that can successfully achieve a desired acceleration by avoiding an absence of torque of the internal combustion engine due to an influence of EGR gas when the torque increases toward a required torque. A required throttle valve opening degree TAreq is set based on a required torque TQreq in accordance with a required throttle valve opening degree map that defines a relation between the required torque TQreq and the required throttle valve opening degree TAreq. In addition, a required EGR valve opening degree EGRreq is set based on a required load factor KLreq in accordance with a required EGR valve opening degree map that defines a relation between the required load factor KLreq and the required EGR valve opening degree EGRreq. | 09-26-2013 |
20140026851 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE, METHOD FOR SWITCHING OFF AN INTERNAL COMBUSTION ENGINE AND ENGINE CONTROL DEVICE - A method for operating an internal combustion engine having a lean NOx trap connected downstream is provided. The method comprises in a normal operating mode, operating the internal combustion engine with a lean fuel/air mixture, and in a special operating mode, operating the internal combustion engine with a rich fuel/air mixture in order to bring about regeneration of the lean NOx trap, wherein a changeover from the normal operating mode to the special operating mode takes place when switching off of the internal combustion engine is expected. | 01-30-2014 |
20140026852 | COMBUSTION CONTROL WITH EXTERNAL EXHAUST GAS RECIRCULATION (EGR) DILUTION - Methods and system are described for controlling the performance of a vehicle engine in multiple combustion modes. A first engine control variable is identified that has primary control authority of a first engine performance variable—such as, for example, combustion phasing—in a first engine combustion mode. The first engine performance variable is then adjusted by adjusting the first engine control variable when operating in the first engine combustion mode. A second engine control variable is identified that has primary control authority of the first engine performance variable in a second engine combustion mode. The first engine performance variable is adjusted by adjusting the second engine control variable when operating in the second engine combustion mode. | 01-30-2014 |
20140060485 | INTAKE CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - An intake control system for an internal combustion engine, which, even when there are a plurality of intake air amounts for attaining one target torque, is capable of positively selecting a minimum intake air amount therefrom without causing hunting, and setting the minimum intake air amount as a target intake air amount, thereby making it possible to improve fuel economy. The intake control system calculates a maximum intake air amount, sets a plurality of provisional intake air amounts within a range of 0 to the maximum intake air amount, calculates torques estimated to be output from the engine with respect to the provisional intake air amounts, respectively, selects a minimum provisional intake air amount that makes the estimated torque equal to or close to the target torque from the relationship between the provisional intake air amounts and the estimated torques, and sets the same as the target intake air amount. | 03-06-2014 |
20140076278 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE WITH SUPERCHARGER - The present invention is a proposal relating to cooperative manipulation of an actuator which actively changes a supercharging pressure and a throttle in the case of application of torque demand control to an internal combustion engine with a supercharger. A control device provided by the present invention separately determines a target air quantity for manipulation of the throttle, and a target air quantity for manipulation of the actuator. In more detail, driver required torque which is included in required torque is converted into an air quantity in accordance with a predetermined conversion rule, and the air quantity which is obtained by the conversion is determined by calculation as a reference target air quantity. The reference target air quantity is used as a target air quantity for throttle manipulation, and is also used as a target air quantity for actuator manipulation at a normal time. When a change occurs to the required torque, and the change cannot be realized under the reference target air quantity, a correction target air quantity capable of realizing the change is determined by calculation, and is used as the target air quantity for throttle manipulation. | 03-20-2014 |
20140230784 | System and Method for Control of a Transition Between SI and HCCI Combustion Modes - In one embodiment an engine system includes a cylinder, an inlet valve configured to control the flow of gases into the cylinder, an outlet valve configured to control the flow of gases out of the cylinder, a throttle configured to control the flow of fuel into the cylinder, a memory including program instructions stored therein, and a processor operably connected to the inlet valve, the outlet valve, the throttle, and the memory, and configured to execute the program instructions to control the inlet valve and the outlet valve in accordance with an HCCI valve lift profile and an SI valve open/close profile, and activate a first spark in the cylinder while controlling the inlet valve and the outlet valve in accordance with the HCCI valve lift profile and the SI valve open/close profile. | 08-21-2014 |
20140238345 | APPARATUS AND METHOD FOR CONTROLLING ROTATION SPEED OF INTERNAL COMBUSTION ENGINE - Rotation speed control apparatus including an electronically controllable throttle valve capable of changing an intake air quantity, a variable compression ratio mechanism capable of changing a mechanical compression ratio, and an ECU configured to calculate a deviation between a target idle rotation speed and an actual rotation speed during idle operation, select either one or both of the intake air quantity and the mechanical compression ratio as control targets in accordance with magnitude of the deviation, and reduce the deviation by changing the selected either one or both of the intake air quantity and the mechanical compression ratio. | 08-28-2014 |
20140261313 | FUEL INJECTION SYSTEM FOR INTERNAL COMBUSTION ENGINE - A kit for replacing a carburetor-based fuel delivery system for internal combustion engines with an electronic fuel injection system has an electronic control unit receiving signals from pressurization pump and a number of sensors mounted on the throttle, engine and the manifold. According to the invention, the standard manifold is replaced with the machined manifold which carries at least one fuel injector with a nozzle that can extend into an intake chamber of the engine. A pressure regulator maintains the fuel in the fuel lines at a set value and re-circulates unused fuel through a fuel reservoir/vapor separator. | 09-18-2014 |
20140290622 | AIR-FUEL RATIO IMBALANCE DETECTION DEVICE FOR INTERNAL COMBUSTION ENGINE - A plurality of cylinders are provided. An in-cylinder pressure sensor is mounted on each of the plurality of cylinders. A combustion parameter (e.g., the amount of generated heat) is calculated from the output of the in-cylinder pressure sensor. The air-fuel ratio for a cylinder is enleaned by reducing a fuel injection amount until the combustion parameter coincides with a predetermined value. Each cylinder is subjected to fuel injection amount reduction control so that the combustion parameter coincides with the predetermined value. The air-fuel ratio for each cylinder is then calculated in accordance with the reduction amount of fuel injection amount. The calculated air-fuel ratios are compared to detect an air-fuel ratio imbalance between the cylinders. | 10-02-2014 |
20140299096 | DEVICE FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE - A device for controlling an internal combustion engine in a motor vehicle having an uneven running ascertaining unit and an injection quantity correction unit, in which one group of cylinders being associated with a lambda sensor, in which the uneven running ascertaining unit determines the uneven running of a cylinder and compares it with a predefinable threshold value. If the ascertained uneven running exceeds the predefinable threshold value, the injection quantity correction unit adjusts the injection quantity of the cylinder in the rich direction and adjusts the injection quantities of the other cylinders of the group, so that on the whole a predefinable lambda value of the group, which may be a lambda value of 1, is achieved, and a lambda deviation is determinable for each individual cylinder in an adaption unit. | 10-09-2014 |
20140299097 | ENGINE CONTROL SYSTEM - An engine control system controls an internal combustion engine so that some of a plurality of cylinders in a multi-cylinder internal combustion engine are made to rest and reduced-cylinder operation takes place. Each cylinder comprises a piston, an intake valve and an exhaust valve. In a resting cylinder during reduced-cylinder operation, when the piston moves downwards, the engine control system opens both the intake valve and the exhaust valve, and when the piston moves upwards, the engine control system opens the intake valve and closes the exhaust valve. | 10-09-2014 |
20140311446 | AIRFLOW CONTROL SYSTEMS AND METHODS USING MODEL PREDICTIVE CONTROL - A torque requesting module generates a first torque request for a spark ignition engine based on driver input. A torque conversion module converts the first torque request into a second torque request. A setpoint module generates setpoints for the spark ignition engine based on the second torque request. A model predictive control (MPC) module: identifies sets of possible target values based on the setpoints; generates predicted parameters based on a model of the spark ignition engine and the sets of possible target values, respectively; selects one of the sets of possible target values based on the predicted parameters; and sets target values based on the possible target values of the selected one of the sets. A first constraint module selectively sets a predetermined range for first one of the target values. The MPC module limits the first one of the target values to within the predetermined range. | 10-23-2014 |
20140311447 | HUMIDITY AND FUEL ALCOHOL CONTENT ESTIMATION - Methods and systems for an engine system including an exhaust gas sensor are disclosed. In one example, under a first engine fueling condition, an air-fuel ratio correction factor is determined based on an expected air-fuel ratio and an actual air-fuel ratio. During a second engine fueling condition and a third engine non-fueling condition, fuel alcohol content and ambient humidity, respectively, are determined based on the exhaust gas sensor and corrected based on the air-fuel ratio correction factor. | 10-23-2014 |
20140311448 | GAS ENGINE, GAS HEAT PUMP SYSTEM AND COGENERATION SYSTEM USING THE GAS ENGINE, AND METHOD FOR CONTROLLING THE GAS ENGINE - A gas engine | 10-23-2014 |
20140338635 | VEHICLE DRIVING DEVICE AND VEHICLE DRIVING METHOD - An automatic transmission performs a shift-up operation when the accelerator pedal is released from a depression during a vehicle is running. An engine rotation speed immediately alter the shift up operation is predicted on the basis of the engine rotation speed and a gear ratio of the transmission after the shift-up operation. When a fuel recovery is predicted to be performed immediately after the shift-up operation, the fuel recovery is advanced such that it is performed in the inertial phase of the transmission. | 11-20-2014 |
20140352658 | SYSTEM AND METHOD TO DIAGNOSE FUEL SYSTEM PRESSURE SENSOR - A system includes an ignition detection module, a pressure sensor, a pressure variation module, and a pressure sensor diagnostic module. The ignition detection module detects when an engine is started. The pressure sensor generates a first pressure signal indicating a first pressure within a fuel system of the engine when the engine is started and when a purge valve of the fuel system is closed. The pressure variation module determines an amount of variation in the first pressure signal over a first period. The pressure sensor diagnostic module determines a state of the pressure sensor based on the amount of variation in the first pressure signal over the first period. | 12-04-2014 |
20140360463 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A control device of an internal combustion engine performs an air-fuel ratio feedback control to set an air-fuel ratio to a target air-fuel ratio, and determines abnormality of a fuel system based on a feedback correction amount by the air-fuel ratio feedback control. The control device of an internal combustion engine includes: a double tank type oil pan including: an inner tank and an outer tank for storing oil; and a mechanism which switches between connection and disconnection of the inner tank and the outer tank; and a controller configured to control the mechanism to connect the inner tank and the outer tank in a case where the feedback correction amount is equal to or larger than a first predetermined value. Thus, it is possible to prevent the air-fuel ratio from getting rich, and it is possible to appropriately prevent the erroneous determination of abnormality of the fuel system. | 12-11-2014 |
20150020770 | 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 |
20150020771 | 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 |
20150020772 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE - An internal combustion engine has an intake channel which opens via a first valve into a crankcase of the engine. The first valve opens at a first frequency (f | 01-22-2015 |
20150047602 | Engine Control Method and System - The present invention provides an engine control method, which comprises: receiving an indication of the pedal position; pre-processing the indication of the pedal position to determine whether the received indication of the pedal position corresponds to the antisurge mode activation condition; in response to the received indication of the pedal position corresponding to the antisurge mode activation condition, using the boost pressure and the engine speed to look up the static control parameter lookup table to select a control parameter indicating an air flow requirement; and sending the selected control parameter to the ECU so as to control the engine using the air flow requirement indicated by said control parameter. | 02-19-2015 |
20150059690 | SYSTEM AND METHOD FOR ESTIMATING AND CONTROLLING TEMPERATURE OF ENGINE COMPONENT - An engine system is provided. The engine system includes an ambient condition module configured to generate a signal indicative of a state of ambient air. The engine system also includes an operational parameter sensor configured to generate a signal indicative of one or more operational parameters associated with the engine. The engine system further includes a controller communicably coupled to the ambient condition module and the operational parameter sensor. The controller is configured to receive the signal indicative of the pressure of ambient air and the signal indicative of the one or more operational parameters associated with the engine. The controller estimates the temperature of at least one of a valve, a piston, a liner, a cylinder head, and a pre-chamber of the engine as a function of the received signals and parameters associated with fuel delivery to the engine. | 03-05-2015 |
20150101569 | CONTROLLER FOR INTERNAL COMBUSTION ENGINES - An object of this invention is, with respect to a torque-demand-control type controller that subjects two kinds of actuators provided upstream and downstream in an intake passage to coordinated operations based on a requested torque for an internal combustion engine, to enable realization of a pulse-like torque change in a torque decreasing direction that is requested, for example, when performing an upshift operation in an electronically controlled automatic transmission. To achieve this object, according to a controller for an internal combustion engine of this invention, when a pulse component in a torque decreasing direction is included in a requested torque, a second requested torque that does not include the pulse component is generated. In this case, a first actuator provided on the downstream side in the intake passage is operated based on the requested torque. On the other hand, although a second actuator provided on the upstream side in the intake passage is operated based on the requested torque when there is not a valid value of the second requested torque, the second actuator is operated based on the second requested torque when there is a valid value of the second requested torque. | 04-16-2015 |
20150114344 | CONTROL DEVICE OF INTERNAL COMBUSTION ENGINE - A control device | 04-30-2015 |
20150114345 | METHOD AND SYSTEM FOR ENGINE TORQUE CONTROL - Methods and systems are provided for improving vehicle torque control accuracy. Data points of an engine torque data set are adjusted en masse by an on-board vehicle controller while also being adjusted individually by an off-board controller. By adjusting engine operation based on a torque data set that is updated by each of the on-board and off-board controllers, engine torque errors can be reliably determined and compensated for. | 04-30-2015 |
20150308355 | CYLINDER RE-ACTIVATION FUELING CONTROL SYSTEMS AND METHODS - An engine control system is described. A cylinder control module selectively activates and deactivates intake and exhaust valves of a cylinder of an engine. A fuel control module disables fueling of the cylinder when the intake and exhaust valves of the cylinder are deactivated and, when the intake and exhaust valves of the cylinder are activated after being deactivated for at least one combustion cycle of the cylinder, adjusts fueling of the cylinder based on a predetermined reactivation fueling adjustment set for the cylinder. | 10-29-2015 |
20150337744 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - An object of this invention is to appropriately control valve timings based on a fuel property and an engine temperature to improve exhaust emissions. An engine is equipped with a function that drives variable valve mechanisms to execute intake valve retarded-opening control and exhaust valve early-closing control. An ECU variably sets a low-temperature determination value based on an alcohol concentration in a fuel. If a water temperature of the engine is equal to or less than the low-temperature determination value, the ECU prohibits the intake valve retarded-opening control and permits the exhaust valve early-closing control. Consequently, during cold operation it is possible to avoid a deterioration in combustion properties (deterioration in in-cylinder turbulence) caused by intake valve control and thereby suppress a deterioration in exhaust emissions. Further, because exhaust valve control is permitted, for example, a negative overlap period that satisfies a control request can be secured by advancing the closing timing of the exhaust valve. Accordingly, exhaust emissions and catalyst warm-up performance can be improved. | 11-26-2015 |
20160108824 | INTERNAL COMBUSTION ENGINE CONTROL APPARATUS - There is provided an internal combustion engine control apparatus that is capable of determining accurately from an ignition discharging time period whether the intake valve and the exhaust valve are in the operative condition or in the inoperative condition. A cylinder deactivation controller causes a first ignition controller to perform a first ignition control on the basis of the ignition timing when issuing no cylinder deactivation request, and causes a second ignition controller to perform a second ignition control on the basis of an energizing time period when issuing the cylinder deactivation controller. The discharging time period is calculated by a discharging time period calculation section on the basis of an ion current signal output from the ignition coil. | 04-21-2016 |
20160108828 | IF METHOD AND SYSTEM FOR ENGINE KNOCK CONTROL - Methods and systems are provided for using selective cylinder deactivation for knock control with reduced fuel penalty. Cylinders with heavier knock and/or more borderline limited spark may be transiently deactivated until they are sufficiently cool. While reactivating the cylinders following cooling, other cylinders that are knocking, hot, or borderline spark limited may be deactivated. | 04-21-2016 |
20160108835 | METHOD OF CONTROLLING A TURBOCHARGED ENGINE - A method of controlling a motor vehicle having a turbocharged engine is disclosed in which deactivation of cylinders of the engine is controlled to prevent the rotational speed of a turbocharger of the engine falling below a predefined limit TA, TB. Following commencement of a coast down of the motor vehicle all cylinders of the engine are first deactivated so as to maximise energy recuperation from the motor vehicle by a belt integrated starter generator driveably connected to the engine. However, if the speed of the turbocharger reaches one of the speed limits TA, TB at least one cylinder of the engine is reactivated to keep the turbocharger spinning. | 04-21-2016 |
20160138504 | DIAGNOSIS SYSTEM OF INTERNAL COMBUSTION ENGINE - An internal combustion engine comprises an exhaust purification catalyst and an air-fuel ratio sensor arranged at a downstream side of the exhaust purification catalyst, stops or decreases a feed of fuel as fuel cut control, and controls an air-fuel ratio of exhaust gas to a rich air-fuel ratio after the end of the fuel cut control as post reset rich control. A first characteristic of change of air-fuel ratio at the time the output air-fuel ratio first passes a first air-fuel ratio region and a second characteristic of change of air-fuel ratio at the time when the output air-fuel ratio first passes a second air-fuel ratio region different from the first air-fuel ratio region are calculated. The diagnosis system judges any one of normality, abnormality, and whether a hold should be put on judgment for the state of the air-fuel ratio sensor, based on the first characteristic of change of air-fuel ratio and, if it is judged that a hold should be put on judgment, judges if the state of the air-fuel ratio sensor is normal or abnormal based on the second characteristic of change of air-fuel ratio. As a result, it is possible to suppress the effects of the change of state of the exhaust purification catalyst while accurately diagnosing the abnormality of deterioration of response of a downstream side air-fuel ratio sensor. | 05-19-2016 |
20160153368 | METHOD FOR PREVENTING ENGINE STALL IN SIGNAL DRIFT OF THROTTLE POSITION SENSOR | 06-02-2016 |
20160201578 | Electric Air Flow Control Device for Internal Combustion Engines | 07-14-2016 |