Patent application number | Description | Published |
20100036589 | POWER OUTPUT APPARATUS, INTERNAL COMBUSTION ENGINE SYSTEM, AND CONTROL METHODS THEREOF - On the occasion of a cutoff of fuel supply to an engine in an accelerator-off state, the invention expands a throttle opening over a specific throttle opening set in the state of idling of the engine at the reference rotation speed. On resumption of fuel injection to the engine, the invention reduces the throttle opening to the specific throttle opening set in the state of idling of the engine at the reference rotation speed. Under no control of lowering the rotation speed of the engine by a motor or under the condition of low vehicle speed with control of lowering the rotation speed of the engine by the motor, the invention resumes fuel injection to the engine resumed with setting of a smaller correction amount to a fuel increase correction amount. | 02-11-2010 |
20100049389 | HYBRID VEHICLE AND MOTOR DRIVE CONTINUABLE RANGE DISPLAYING METHOD - When the EV switch is on, a first motor drive continuable time is calculated based on the state of charge of the battery and the unit time driving power, and a second motor drive continuable time is calculated as a time until reaching a lower limit temperature θref allowing the catalyst of the purifying device to function, and whichever is shorter, is visibly displayed to a driver. This allows the range capable of continuing motor drive to be displayed more appropriately to the driver than a method of displaying the time simply by the state of charge of the battery, and can reduce an uncomfortable feeling of the driver due to an unexpected start of the engine. | 02-25-2010 |
20100082188 | HYBRID VEHICLE AND CONTROL METHOD OF HYBRID VEHICLE - On a restart of an engine accompanied with a change from a motor drive of a hybrid vehicle to a hybrid drive, when a temperature of a catalyst in a catalytic converter located in an exhaust pipe of the engine decreases below a preset reference temperature to be out of a specific temperature range of ensuring sufficient catalyst performance, a power restriction value is set according to the catalyst temperature and an EV drive time representing a time duration of the motor drive. An engine power demand to be output from the engine is set under output restriction with this power restriction value. The engine and two motors are then controlled with the set engine power demand. This arrangement effectively prevents poor emission and ensures good driving performance of the vehicle even in the event of a temperature decrease of the catalyst by the motor drive of the vehicle. | 04-01-2010 |
20100162707 | INTERNAL COMBUSTION ENGINE APPARATUS, CONTROL METHOD THEREOF, AND HYBRID VEHICLE - An internal combustion engine apparatus provided with an internal combustion engine in which ignition timing can be adjusted and which has attached thereto an exhaust gas recirculation device that recirculates exhaust gas to an intake side, a control method for the internal combustion engine apparatus, and a hybrid vehicle are provided. When it is not a recirculation ratio variation time, a target ignition timing is set by correcting a base ignition timing that has been established as a base value of an ignition timing of the internal combustion engine by a first correction amount, and when it is the recirculation ratio variation time, the target ignition timing is set by correcting the base ignition timing by a second correction amount that delays an ignition timing more than a provisional correction amount obtained by correcting the first correction amount, and the internal combustion engine is controlled so that the internal combustion engine is operated due to the ignition at the target ignition timing that has been set. | 07-01-2010 |
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 |
20130206119 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - An internal combustion engine executes EGR and controls the air-fuel ratio based on a detected oxygen concentration in the exhaust. An electronic control unit controls the engine such that the detected value for the air-fuel ratio upstream from a front catalyst provided in an exhaust pipe reaches a value indicating a leaner air-fuel ratio when EGR is being executed than when not executed. Therefore, the controlled air-fuel ratio follows shifting of a window to the leaner side in response to execution of EGR, so that the air-fuel ratio is controlled more precisely in response to the execution of EGR. | 08-15-2013 |
20130311070 | CONTROLLER FOR INTERNAL COMBUSTION ENGINE - A controller includes an exhaust gas recirculation (EGR) system for performing EGR control, the system including an EGR passage for recirculating exhaust gas per cylinder and an EGR device for controlling a flow rate of the exhaust gas to be recirculated. The controller is arranged to perform internal combustion engine by learning control of an air-fuel ratio (A/F) during the EGR control. This controller includes a blocking determination section including first and second determination sections to determine blocking of the EGR passage in a specified cylinder. The blocking determination section is configured so that the first determination section makes preliminary determination of blocking of the EGR passage and the second determination section makes main determination of blocking of the EGR passage. | 11-21-2013 |
20130325299 | CONTROLLER FOR INTERNAL COMBUSTION ENGINE - A controller for internal combustion engine includes a rotation number detecting section to detect engine rotation number and an air-fuel ratio detecting section to detect an air-fuel ratio (A/F) of air-fuel mixture and is configured to perform leaning control of the A/F. The controller further includes a rotation number difference calculating section to calculate a difference between a rotation number variation value of a worst cylinder specified as having largest rotation number variation based on the detected rotation number detected and an average value of rotation number variation values of remaining cylinders other than the worst cylinder; an estimated imbalance rate calculating section to calculate an estimated imbalance rate based on the A/F detected by the air-fuel ratio detecting section; and a lean abnormality detecting section to detect lean imbalance abnormality in a specific cylinder based on the calculated rotation number difference and the calculated estimated imbalance rate. | 12-05-2013 |
20140297088 | HYBRID VEHICLE AND CONTROL METHOD FOR HYBRID VEHICLE - A hybrid vehicle including an engine having a catalyst in an exhaust passage, first and second motor generators, a battery and a power transmission mechanism coupling a drive shaft, the engine and the motor generators by a gear mechanism such that torque is transmittable, and its control method, are provided. When a coolant temperature is a threshold or below, catalyst warm-up operation for starting the engine and retarding an ignition timing by a retardation amount is executed. When a battery level is a threshold or below, forced charging operation for starting the engine and charging the battery by driving the first motor generator is executed. During the forced charging operation, an engine load is changed on the basis of the battery level. When the catalyst warm-up operation is executed during the forced charging operation, the retardation amount for facilitating warm-up of the catalyst is reduced as the engine load increases. | 10-02-2014 |