Class / Patent application number | Description | Number of patent applications / Date published |
123406450 | Including control of combustible mixture or a constituent thereof (e.g., air, fuel, exhaust gas) | 39 |
20080276904 | Differential Torque Operation for Internal Combustion Engine - A method of operating an internal combustion engine having a plurality of cylinders including at least a first cylinder and a second cylinder, the method comprising firing the first cylinder and the second cylinder in an alternating sequence; during a first mode, adjusting an operating parameter of the engine to produce a first difference between an amount of torque produced by the firing of the first cylinder and an amount of torque produced by the firing of the second cylinder; during a second mode, adjusting the operating parameter of the engine to produce a second difference between an amount of torque produced by the firing of the first cylinder and an amount of torque produced by the firing of the second cylinder; and performing the first mode at a higher engine speed than the second mode; wherein the first difference is greater than the second difference. | 11-13-2008 |
20080283025 | Engine control device - To improve power performance while avoiding or suppressing surging, an engine control device comprises a VVT mechanism for varying the open/close timing of an intake valve, and the occurrence of surging is determined by comparing an engine rotation variation width with a surge determination threshold. When it is determined that surging has occurred, an ignition timing surge correction amount is set at a value that has been corrected in an advancement direction, and the ignition timing is corrected in the advancement direction by the ignition timing surge correction amount. Further, a VVT surge correction amount by which the open/close timing of the intake valve is corrected using the intake VVT mechanism is set at a value that has been corrected in a retardation direction, and a control current value for operating the intake VVT mechanism is corrected in the retardation direction by the VVT surge correction amount. | 11-20-2008 |
20090241899 | Reserve Torque for Lean Equivalence Ratio Requests - A reserve torque system comprises a first module and a reserve torque module. The first module generates a first signal a predetermined period before an equivalence ratio (EQR) of an air/fuel mixture supplied to an engine is transitioned from a non-lean EQR to a lean EQR. The reserve torque module creates a reserve torque between when the first signal is generated and when the EQR is transitioned to the lean EQR. | 10-01-2009 |
20100147264 | FUEL SHUTOFF SYSTEM - A fuel control system that has a fuel control device to control the flow of fuel to a carburetor of an internal combustion engine. The fuel control device includes a control member that is movable between a first position and a second position to control the flow of fuel into a carburetor. When a kill switch within the fuel control system is closed, induced current from a primary ignition coil within the internal combustion engine is fed through an electromagnetic coil, causing the fuel flow control device to interrupt the supply of fuel to the carburetor. Thus, when an operator desires to stop the internal combustion engine, the kill switch closes and the fuel control device interrupts the supply of fuel to the carburetor to prevent backfires. | 06-17-2010 |
20110132326 | Reformate Control via Accelerometer - Engine surge includes oscillations in engine torque resulting in bucking or jerking motion of a vehicle that may degrade driver experience. The present application relates to increasing reformate entering an example engine cylinder in response to engine surge. | 06-09-2011 |
20110197853 | WASTE HEAT CONTROLLER - An ECU controls waste heat quantity of an engine according to a required heat quantity in response to a heat-utilize requirement. The ECU controls a valve opening period of an intake valve based on an engine driving condition and an ignition timing based on a most efficient timing at which fuel economy is highest. The ECU determines whether there is an ignition advance margin relative to the most efficient timing. When there is no margin, an actual compression ration of the engine is decreased by advancing or retarding a valve close timing of the intake valve and the ignition timing is advanced relative to the most efficient timing in order to increase the waste heat quantity. | 08-18-2011 |
20110203551 | 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. | 08-25-2011 |
20110265762 | Method and System for Pre-Ignition Control - Methods and systems are provided to address engine pre-ignition. One or more cylinders are alternately rich and lean operated for a duration to reduce engine thermal loading while maintaining an exhaust air-to-fuel ratio around stoichiometry. | 11-03-2011 |
20140261319 | IGNITION CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - An ignition control device for an internal combustion engine, which controls the number of times of ignition operation such that it becomes neither too large nor too small, according to a flowing state of a mixture in a cylinder. In the ignition control device, a target ignition timing is used as an in-cylinder flow parameter indicative of the strength of a tumble flow generated in a cylinder. When the target ignition timing is more advanced than a predetermined reference position, it is determined that the tumble flow is strong, and multiple ignition control is executed by setting the number of times of ignition to a plurality of times, whereas when the former is more retarded than the latter, it is determined that the tumble flow is not strong, and normal ignition control is executed by setting the number of times of ignition to only once. | 09-18-2014 |
20150034047 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - An object of the invention is to provide a control device for an internal combustion engine that regularly and forcefully removes deposit that is accumulated in cylinders and restrains consecutive occurrences of pre-ignition beforehand. The internal combustion engine has a low-speed pre-ignition region in which a possibility of occurrence of pre-ignition increases, in a low-rotation and high-load region. Ignition means ( | 02-05-2015 |
20150361943 | METHOD FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE - A method for controlling an engine is disclosed. The method may include receiving a pressure data set of a combustion event. The pressure data set may correspond to a temporal development of a cylinder pressure during the combustion event in a cylinder. The method may also include determining using a controller that the received pressure data set indicates an actual ignition timing within a preset ignition timing window. Further, the method may include deriving an actual combustion duration (D | 12-17-2015 |
20160053697 | SKIP FIRE TRANSITION CONTROL - Methods and arrangements are described for controlling transitions between firing fractions during skip fire operation of an engine in order to help smooth the transitions. Generally, firing fractions transitions are implemented gradually, preferably in a manner that relatively closely tracks manifold filling dynamics. In some embodiments, the commanded firing fraction is altered each firing opportunity. Another approach contemplates altering the commanded firing fraction by substantially the same amount each firing opportunity for at least a portion of the transition. These approaches work particularly well when the commanded firing fraction is provided to a skip fire controller that includes an accumulator functionality that tracks the portion of a firing that has been requested, but not delivered, or vice versa. In various embodiments, commanded firing fraction changes are delayed relative to initiation of the change in throttle position to help compensate for inherent delays associated with changing the manifold air pressure. | 02-25-2016 |
20160084179 | CONTROLLING AN INTERNAL COMBUSTION ENGINE OPERATED ON GASEOUS FUEL - A method for controlling an internal combustion engine operating on at least partly gaseous fuel is disclosed. The method may include providing a desired burn rate profile corresponding to a desired operation of the internal combustion engine. The method may further include selecting first operating parameters such that an operation of the internal combustion engine with a first gas composition produces a first burn rate profile that corresponds to the desired burn rate profile. The method may also include operating the internal combustion engine with the first operating parameters using a second gas composition. The method may include determining that the second burn rate profile differs from the desired burn rate profile. In addition, the method may include adjusting an operating parameter from among the first operating parameters of the internal combustion engine to approach the desired burn rate profile. | 03-24-2016 |
123406460 | Acceleration or deceleration responsive | 4 |
20110239987 | INTERNAL COMBUSTION ENGINE INCLUDING VALVE DEACTIVATION MECHANISM - An internal combustion engine which includes a valve deactivation mechanism for reducing an output power shock upon changing of the cylinder number. In an internal combustion engine which includes a valve deactivation mechanism driven by a slide pin which is driven by hydraulic pressure, response delay time after a signal is sent to oil control valves until an intake valve and an exhaust valve are activated or deactivated is used to form a control map in response to control parameters, and the valve deactivation mechanism is controlled based on the control map. | 10-06-2011 |
20140311450 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A cylinder-inflow EGR gas amount is estimated, a misfire limit EGR gas amount is calculated on the basis of an engine operation state, and the misfire limit EGR gas amount is compared with the cylinder-inflow EGR gas amount to predict whether a misfire occurs. When the misfire is predicted, a misfire avoidance control is executed. Further, an actual misfire countermeasure effect amount in a case of the execution of the misfire avoidance control is calculated, and the actual misfire countermeasure effect amount is compared with a required misfire countermeasure effect amount to determine whether the misfire is avoidable when the misfire avoidance control is executed. If the misfire is unavoidable even if the misfire avoidance control is executed, a delay restriction value of an ignition timing to avoid the misfire is calculated, and the amount of a delay in the ignition timing is restricted using the delay restriction value. | 10-23-2014 |
20160115892 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A target air amount for achieving a requested torque is back-calculated from the requested torque using a parameter that provides a conversion efficiency of an air amount to torque. The value of the parameter gradually changes to lower the conversion efficiency as the requested torque decreases from a second reference value towards a first reference value. The first reference value is calculated based on the engine speed. The second reference value is calculated based on an air amount with which the first reference value is achieved under a second air-fuel ratio, and a first air-fuel ratio. The target air-fuel ratio is set to the first air-fuel ratio when the requested torque is greater than the first reference value, and is switched from the first air-fuel ratio to the second air-fuel ratio when the requested torque decreases to a value equal to or less than the first reference value. | 04-28-2016 |
20160123250 | DEVICE FOR CONTROLLING INTERNAL COMBUSTION ENGINE - A target air amount for achieving a requested torque is back-calculated from the requested torque using a virtual air-fuel ratio. The virtual air-fuel ratio is changed from a first air-fuel ratio to a second air-fuel ratio in response to a condition for switching an operation mode from operation in the first air-fuel ratio to operation in the second air-fuel ratio being satisfied. After the virtual air-fuel ratio is changed from the first air-fuel ratio to the second air-fuel ratio, the target air-fuel ratio is changed in accordance with an air-fuel ratio efficiency within the range from the first air-fuel ratio to the second air-fuel ratio. The air-fuel ratio efficiency is calculated based on a proportion of the requested torque relative to a torque that can be achieved by means of a current estimated air amount under the theoretical air-fuel ratio and the optimal ignition timing. | 05-05-2016 |
123406470 | With fuel injection control | 14 |
20080295802 | Method of Determining the Injection Timing in a Four-Stroke Heat Engine and Device For Implementing This Method - The invention concerns a method for determining the timing of an injection cycle relative to an operating cycle of a four-stroke engine (ECH, ADM, COMP, DET), the timing being possibly correct or wrong, the method including the step of operating the engine while modifying a first operating parameter of the engine adapted to bring about on the engine operating effects which are different depending on whether the timing is correct or wrong; it consists in simultaneously modifying a second operating parameter of the engine adapted to bring about on the engine operating mode effects which compensate the effects modifying the first operating parameter of the engine when the timing is correct, and which do not compensate the efforts modifying the first operating parameter of the engine when the timing is wrong. | 12-04-2008 |
20090025682 | CONTROLLER FOR SPRAY-GUIDE TYPE DIRECT INJECTION INTERNAL COMBUSTION ENGINE - A combustion state of each cylinder is determined during a compression stroke injection mode (stratified combustion mode) or an intake-compression stroke divided injection mode (weak stratified combustion mode). When a combustion deterioration is detected, a combustion improvement control is performed in order to improve the combustion state. During the combustion improvement control, the fuel injection which is supposed to be performed in one compression stroke is divided into a plurality of injections. Alternatively, a total spark period is prolonged in a retard direction, a fuel injection timing is corrected to be advanced, or a fuel pressure is reduced. | 01-29-2009 |
20090266336 | COMBUSTION CONTROL DEVICE AND METHOD FOR CONTROLLING COMBUSTION OF ENGINE - A combustion control device is configured to control combustion in a combustion chamber of a compression ignition engine. An index detection unit is configured to detect multiple combustion state indices each indicating a combustion state in the combustion chamber. The multiple combustion state indices may include an ignition time point and an MFB50 time point, at which a combustion mass rate becomes 50% of total. A determination unit is configured to select a combustion state index from the multiple combustion state indices based on a determination condition such as an operation state of the engine. A control unit is configured to manipulate a parameter of the combustion state such as a fuel injection time point, at which a fuel injection valve injects fuel, so as to control the combustion state index at a target value. | 10-29-2009 |
20110061628 | Internal combustion engine and starting method thereof - An internal combustion engine is ignition-combustion started with or without cranking by controlling the ignition-combustion based on combustion chamber pressure, or engine temperature, or piston position, or the time elapsed since the engine was stopped, or a combination of these considerations. | 03-17-2011 |
20120024262 | METHOD AND SYSTEM FOR CONTROLLING FUEL USAGE - Methods and systems are provided for improving fuel usage while addressing knock by adjusting the use of spark retard and direct injection of a knock control fluid based on engine operating conditions and the composition of the injected fluid. One or more engine parameters, such as EGR, VCT, boost, throttle position, and CMCV, are coordinated with the direct injection to reduce torque and EGR transients. | 02-02-2012 |
20140007839 | ENGINE SYSTEM - An engine system includes an engine, an air intake passage to supply air to the engine, a throttle valve provided in the air intake passage to adjust a throttle opening degree that is an opening degree of the air intake passage, a bypass passage to supply air to the engine while bypassing the throttle valve, an on/off valve provided in the bypass passage to open and close the bypass passage, and a control unit that performs ignition lag control of the engine to control an output of the engine when the on/off valve is in an open state. | 01-09-2014 |
20140034013 | METHOD AND SYSTEM FOR CONTROLLING FUEL USAGE - Methods and systems are provided for improving fuel usage while addressing knock by adjusting the use of spark retard and direct injection of a knock control fluid based on engine operating conditions and the composition of the injected fluid. One or more engine parameters, such as EGR, VCT, boost, throttle position, and CMCV, are coordinated with the direct injection to reduce torque and EGR transients. | 02-06-2014 |
20140069382 | SPARK-IGNITION DIRECT INJECTION ENGINE - A spark-ignition direct injection engine is provided. The engine includes an engine body, a fuel injection valve, a fuel pressure setting mechanism, an ignition plug, and a controller. The controller switches between a compression-ignition mode where the engine body is operated to perform compression-ignition combustion and a spark-ignition mode where the engine body is operated to perform spark-ignition combustion. Immediately after switching from the spark-ignition mode to the compression-ignition mode, the controller operates the engine body in a compression-ignition initial mode where the fuel pressure is set to be 30 MPa or above and the fuel injection valve is controlled to perform the fuel injection in a period from a late stage of the compression stroke to an early stage of the expansion stroke so that the gas mixture self-ignites to combust. | 03-13-2014 |
20140331968 | METHOD FOR COLD STARTING A SPARK-IGNITION INTERNAL COMBUSTION ENGINE OPERATING WITH A FUEL COMPRISING ETHANOL - Method for cold starting an internal combustion engine operating with an ethanol fuel, with ignition controlled by a control unit including a basic ignition advance map determined for a given engine, includes the following steps applied to at least one combustion chamber in contact with a piston connected to a drive shaft:
| 11-13-2014 |
20150144102 | SYSTEM AND METHOD FOR CONTROLLING FUEL INJECTION TIMING BASED ON SPARK IGNITION TIMING WHILE HEATING A CATALYST TO THE LIGHT-OFF TEMPERATURE - A system according to the principles of the present disclosure includes an ignition timing determination module, an injection timing determination module, a spark control module, and a fuel control module. The ignition timing determination module determines a first crank angle. The injection timing determination module selectively determines a second crank angle based on the first crank angle. The spark control module controls a spark plug to generate spark in a cylinder of an engine at the first crank angle. The fuel control module controls a fuel injector to deliver fuel to the cylinder at the second crank angle. | 05-28-2015 |
20160003168 | SYSTEM AND METHOD FOR SELECTIVE CYLINDER DEACTIVATION - Embodiments for operating an engine with skip fire are provided. In one example, a method comprises during a skip fire mode or during a skip fire mode transition, port injecting a first fuel quantity to a cylinder of an engine, the first fuel quantity based on a first, predicted air charge amount for the cylinder and lean of a desired air-fuel ratio, and direct injecting a second fuel quantity to the cylinder, the second fuel quantity based on the first fuel quantity and a second, calculated air charge amount for the cylinder. | 01-07-2016 |
20160003209 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE AND INTERNAL COMBUSTION ENGINE - A method for operating a combustion engine is disclosed. In an embodiment, the method includes: generating several sparks to ignite a fuel-air mixture in a combustion chamber by an ignition device of the combustion engine, determining a combustion duration of at least one of the sparks, detecting a deviation of an actual operation from a target operation of the combustion engine at least depending on the combustion duration, compensating for the deviation by implementing at least one measure which influences a combustion of the fuel-air mixture in the combustion chamber, determining the combustion duration of the chronological first of the sparks, allocating the first spark to a first spark type or to a second spark type depending on the combustion duration, and implementing the at least one measure if at least one value which characterizes a frequency of one of the spark types exceeds a threshold value. | 01-07-2016 |
20160017834 | METHOD AND APPARATUS FOR CONTROLLING OPERATION OF AN INTERNAL COMBUSTION ENGINE - An internal combustion engine is configured to operate in a homogeneous-charge compression-ignition combustion mode. Operation of the engine includes determining a combustion pressure parameter for each cylinder. Fueling for each cylinder is controlled responsive to a target state for the combustion pressure parameter for the corresponding cylinder. An end-of-injection timing and a corresponding spark ignition timing for each cylinder are controlled responsive to a target mass-burn-fraction point for an engine operating point. | 01-21-2016 |
20160123251 | CONTROL SYSTEM OF INTERNAL COMBUSTION ENGINE (AS AMENDED) - A control system of an internal combustion engine which performs diffusion combustion by compression autoignition on fuel injected in a main injection in at least a partial operating range and which performs stratified combustion by spark ignition using a spark plug on fuel injected prior to the main injection. The control system determines whether or not the diffusion combustion occurs and performs combustion by spark ignition using the spark plug on the fuel injected in the main injection when it is determined that the diffusion combustion does not occur. | 05-05-2016 |
123406480 | With exhaust gas recirculation (EGR) control | 8 |
20080257309 | FLEXIBLE FUEL ENGINES WITH EXHAUST GAS RECIRCULATION FOR IMPROVED ENGINE EFFICIENCY - A method and system for use with flexible fuel engines capable of operating with arbitrary mixtures of gasoline and alternative fuel. The engine is equipped with an EGR loop and a control system, such that, as the relative amount of alternative fuel decreases, the amount of EGR provided to the engine increases. | 10-23-2008 |
20110303188 | ABNORMALITY DETERMINATION APPARATUS AND ABNORMALITY DETERMINATION METHOD FOR INTERNAL COMBUSTION ENGINE - An engine ECU performs a process including the steps of performing an external EGR and advancing ignition timing of all cylinders of an engine, retarding ignition timing cylinder by cylinder in sequential order when no knocking had occurred before performing the external EGR and advancing the ignition timing and knocking occurred after performing the external EGR and advancing the ignition timing, and determining that a passage provided for a cylinder in which the retardation of ignition timing caused a shift from a state in which knocking occurs to a state in which no knocking occurs is clogged. | 12-15-2011 |
20130068197 | METHOD AND DEVICE FOR CONTROLLING THE EXHAUST GAS RECIRCULATION RATE FOR INTERNAL COMBUSTION ENGINES DURING LEAN OPERATION - A method for setting an exhaust gas recirculation rate in an engine system having an internal combustion engine, the exhaust gas recirculation rate indicating the portion of the exhaust gas recirculated into one cylinder of the internal combustion engine with regard to the total gas quantity present in the cylinder, including: operating the internal combustion engine according to an input for the exhaust gas recirculation rate, an ignition of an air/fuel mixture being carried out in the cylinder at a certain ignition timing; adjusting the ignition timing in the cylinder of the internal combustion engine; correcting the input for the exhaust gas recirculation rate as a function of a change in an operating behavior of the internal combustion engine due to the ignition timing adjustment. | 03-21-2013 |
20150083081 | METHOD AND SYSTEM FOR AN INTAKE HUMIDITY SENSOR - Methods and systems are provided for adjusting an engine operating parameter based on an output of a humidity sensor during a compressor bypass valve event. When the compressor bypass valve is closed, a current output of the sensor is used for the adjustments. When the compressor bypass valve is opened, such as to mitigate surge, an output of the sensor stored from before the opening of the bypass valve is used for the adjustments. | 03-26-2015 |
20150337745 | SYSTEM AND METHOD FOR ESTIMATING AMBIENT HUMIDITY - Methods and systems are provided for estimating ambient humidity based on a wet bulb temperature and a dry bulb temperature during precipitation, and estimating ambient humidity based on the dry bulb temperature and not based on wet bulb temperature when precipitation is absent. | 11-26-2015 |
20160017847 | SYSTEMS AND METHODS FOR DEDICATED EGR CYLINDER EXHAUST GAS TEMPERATURE CONTROL - Systems and methods for increasing EGR gas temperature for an engine that includes at least one dedicated EGR cylinder. The dedicated EGR cylinder may provide exhaust gas to engine cylinders and the exhaust gas does not include exhaust gases from cylinders other than the dedicated EGR cylinder. The dedicated EGR cylinder may allow the engine to operate at higher EGR dilution levels. | 01-21-2016 |
20160153373 | CONTROLLING DEVICE FOR INTERNAL COMBUSTION ENGINE | 06-02-2016 |
20160169186 | METHOD OF SPARK TIMING ADJUSTMENT FOR AN INTERNAL COMBUSTION ENGINE | 06-16-2016 |