Patent application number | Description | Published |
20090319109 | POWER OUTPUT APPARATUS, CONTROL METHOD THEREOF, AND VEHICLE - A power output apparatus includes a control unit that controls an internal combustion engine, a generator, and an electric motor such that a required driving force is output to a drive shaft. The control unit learns an idle control amount, which is a control amount obtained during an idle operation of the internal combustion engine, in accordance with establishment of a predetermined learning condition when a rotation variation amount of the drive shaft is within a predetermined range including a value of zero, and does not learn the idle control amount when the rotation variation amount of the drive shaft is not within the predetermined range. | 12-24-2009 |
20090319158 | POWER OUTPUT APPARATUS, CONTROL METHOD THEREOF, AND VEHICLE - A power output apparatus for outputting power to a drive shaft includes a control unit that controls an internal combustion engine to perform an idle operation at a predetermined rotation speed, executes idle control amount learning, in which an idle control amount serving as a control amount obtained during the control is learned in accordance with establishment of a predetermined learning condition, within a range in which a rotation speed of the drive shaft is lower than a first speed, when the idle control amount learning is incomplete, and executes again the idle control amount learning within a range in which the rotation speed of the drive shaft is lower than a second speed, which is lower than the first speed, when the idle control amount learning is complete. | 12-24-2009 |
20100204864 | HYBRID VEHICLE AND CONTROL METHOD THEREOF - When the catalyst warm-up is not completed and the driving power Pdrv is larger than the battery output allowable power (k·Wout), the power demand Pe* to be output from the engine | 08-12-2010 |
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 |
20120090391 | DIAGNOSIS APPARATUS FOR LEAKAGE MECHANISM IN INTERNAL COMBUSTION ENGINE - After an engine stop duration exceeds a predetermined time period (that is, if a decision outcome of S | 04-19-2012 |
20120222652 | DEVICE AND METHOD FOR CONTROLLING INTERNAL COMBUSTION ENGINE - In a hybrid vehicle including an engine provided with a plurality of VVTs (variable valve timing mechanisms) as one motive power source, an ECU increments a time lapse counter when a sensor detects the fact that a greatest-retard command has been output to all VVTs and an operation position of each VVT has actually returned to a greatest-retard position in response to the greatest-retard command. The ECU determines whether count by the time lapse counter has exceeded a predetermined defined time or not, and it does not permit engine stop until count by the time lapse counter reaches the predetermined defined time and permits engine stop when count by the time lapse counter has exceeded the predetermined defined time. | 09-06-2012 |
20130160727 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A control device for an internal combustion engine includes: a variable valve timing mechanism that changes a valve timing; and a control unit that controls a change of the valve timing. The control unit sets an engine stop request-time target valve timing that is a target valve timing at the time when a request for an engine stop is issued, starts control for changing the valve timing coincides with the engine stop request-time target valve timing and causes the internal combustion engine to operate at an idle at the time when the request for the engine stop is issued, starts a process of stopping operation of internal combustion engine at the time when the valve timing has reached a predetermined valve timing. | 06-27-2013 |
20130166185 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A control device for an internal combustion engine includes: a variable valve timing mechanism that changes a valve timing by pressure of hydraulic fluid; and a control unit that controls a change of the valve timing. The control unit sets an engine stop request-time target valve timing that is a target valve timing at the time when a request for an engine stop is issued, starts control for changing the valve timing such that the valve timing coincides with the engine stop request-time target valve timing and causes the internal combustion engine to operate at an idle at the time when the request for the engine stop is issued, starts a process of stopping the operation of the internal combustion engine at the time when the valve timing has reached a predetermined valve timing, and sets the predetermined valve timing on the basis of a temperature of the hydraulic fluid. | 06-27-2013 |
20130173103 | HYBRID VEHICLE AND METHOD OF CONTROLLING THE SAME - A controller executes an engine intermittent operation to stop operation of an engine when a given engine operation stop condition is satisfied and to start the engine when a given engine start condition is satisfied, makes an in-cylinder injection valve abnormality determination while causing a total amount of fuel to be injected from the in-cylinder injection valve, and makes a port injection valve abnormality determination while causing the total amount of fuel to be injected from the port injection valve. The controller inhibits execution of the engine intermittent operation until the in-cylinder injection valve abnormality determination has been made and the port injection valve abnormality determination has been made. | 07-04-2013 |
20130206105 | CONTROL DEVICE FOR IN-VEHICLE INTERNAL COMBUSTION ENGINE - A control device, which is applied to an in-vehicle internal combustion engine equipped with an intake valve variable timing mechanism that varies the valve timing for an intake valve, and which intermittently operates the in-vehicle internal combustion engine by automatically stopping/restarting the engine, wherein the electronic control unit does not permit the engine operation to be automatically stopped when the intake valve variable timing mechanism malfunctions at an operating position closer to the advanced angle than the operating position for the most retarded angle of the variable range for the valve timing of intake valve, and thus preventing increased engine vibration and misfires when the engine automatically restarts, which are caused by a malfunction of the variable valve mechanism. | 08-15-2013 |
20130226380 | HYBRID VEHICLE - A hybrid vehicle having a controller controls output torque of an engine and output torque of a generator motor so as to apply requested torque to a drive shaft. The controller performs engine intermittent operation to stop operation of the engine when a given engine operation stop condition is satisfied, and start the engine when a given engine start condition is satisfied. The controller makes an in-cylinder injection valve abnormality determination while causing a total amount of fuel to be injected from an in-cylinder injection valve, and makes a port injection valve abnormality determination while causing the total amount of fuel to be injected from a port injection valve. If at least one of abnormality determinations concerning the in-cylinder injection valve and the port injection valve has not been made, the engine is operated so that the load of the engine falls within a predetermined range. | 08-29-2013 |
20130238219 | ABNORMALITY DETERMINATION DEVICE OF VEHICLE AND ABNORMALITY DETERMINATION METHOD - Provided is an abnormality determination device of a vehicle including an engine and a first motor that is configured to output a torque to an output shaft of the engine, the abnormality determination device determining an output abnormality of dropping output of the engine in the vehicle. The abnormality determination device has an abnormality determination unit that determines that an output abnormality of the engine has occurred when an actual torque that is estimated, based on a torque of the first motor, as a torque actually output from the engine falls below a lower limit of an allowable range for a target torque to be output from the engine, and when an amount of increase in a rotational speed of the engine is smaller than a threshold value for misdetermination suppression, which is a threshold value that is larger as the target torque is higher. | 09-12-2013 |
20130268153 | VEHICLE AND VEHICLE CONTROL METHOD - Provided is a vehicle including an engine, a first MG (motor generator), a second MG, a power split device that couples them, and an ECU. ECU determines whether or not to permit execution of pressing control for suppressing idling vibrations produced by the power split device in an idling state of the engine depending on whether or not the combustion state of the engine is good, and sets a permission flag in accordance with a determination result. ECU determines whether or not the vehicle is stopping and is in the idling state. While the vehicle is stopping and is in the idling state and if the permission flag F is “ON”, ECU executes pressing control to cause the first MG to produce pressing torque Tp. If the permission flag F is “OFF”, ECU does not execute pressing control so that the first MG does not produce pressing torque Tp. | 10-10-2013 |
20130297180 | VEHICLE AND CONTROL METHOD FOR VEHICLE - A vehicle includes an engine, a first MG (motor generator), a second MG, a motive power split device, and an ECU. ECU temporarily determines whether or not an imbalance abnormality has occurred based on an air-fuel ratio, and when it is temporarily determined that the imbalance abnormality is present, controls the engine such that the engine is in an idle state and formally determines whether or not the imbalance abnormality has occurred based on fluctuations in engine rotation speed. During a stop at idle, ECU determines whether or not the formal determination process of the imbalance determination is ongoing and carries out pressing control to cause the first MG to generate pressing torque Tp when the formal determination process is not ongoing and does not carry out the pressing control so as not to cause the first MG to generate pressing torque Tp when the formal determination process is ongoing. | 11-07-2013 |
20130311061 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - An ECU executes a program including a step of prohibiting idle priority control if automatic stop control of an engine is prohibited and a step of permitting the idle priority control if the automatic stop control of the engine is not prohibited. | 11-21-2013 |
20140309832 | HYBRID VEHICLE - A hybrid vehicle according to one of embodiments of the present invention applies, to a drive axel, a torque equal to a user requesting torque determined based on an accelerator operation amount, by controlling a torque generated by an engine and a torque generated by an electric motor while adjusting a power generated by the engine in such a manner that an engine efficiency becomes optimum (i.e., while operating the engine at an optimum engine operation point). Further, the vehicle controls an electric power generated by a first motor generator by varying the power generated by the engine based on a remaining capacity of the battery so as to charge the battery. In addition, the vehicle controls the air-fuel of the engine to a rich air-fuel ratio when a predetermined condition is not satisfied, and to a stoichiometric air-fuel ratio when the predetermined condition is satisfied. When the air-fuel ratio of the engine is controlled to be the rich air-fuel ratio, the vehicle sets an upper limit (engine output power upper limit) of the power generated by the engine to a value smaller than a value when the air-fuel ratio of the engine is controlled to be the stoichiometric air-fuel ratio. | 10-16-2014 |
20140365056 | HYBRID VEHICLE - A hybrid vehicle according to one embodiment of the present invention has: an internal combustion engine including an in-cylinder fuel injection valve and a crank ventilation system; a motor; a power transmission mechanism connecting a drive shaft of the vehicle and the engine to allow torque transmission therebetween and connecting the drive shaft and the motor to allow torque transmission therebetween; and a control device. The control device controls output torques of the engine and the motor so as to exert an equal torque to a user requiring torque on the drive shaft. Furthermore, the control device stops the engine when an engine stop condition that included a condition that a coolant water temperature is equal to or higher than an intermittency allowance temperature, and start the engine when an engine start condition is satisfied. | 12-11-2014 |