A catalyst warm-up control method for a hybrid vehicle includes a battery supplying electric power to an electric motor, the battery is charged by an engine for electric power generation, and exhaust gas discharged from the engine 1 is treated by a catalyst. By the catalyst warm-up control method, when temperature of the catalyst is lower than required warm-up temperature for activating the catalyst, target revolution speed and target torque of the engine are controlled based on a state of charge of the battery, and, when target revolution speed is lower than lower-limit revolution speed at which the catalyst can be heated to the required warm-up temperature, the target revolution speed is controlled so as to be required warm-up revolution speed that is equal to or higher than the lower-limit revolution speed.

A catalyst warm-up control method for a hybrid vehicle includes a battery supplying electric power to an electric motor, the battery is charged by an engine for electric power generation, and exhaust gas discharged from the engine 1 is treated by a catalyst. By the catalyst warm-up control method, when temperature of the catalyst is lower than required warm-up temperature for activating the catalyst, target revolution speed and target torque of the engine are controlled based on a state of charge of the battery, and, when target revolution speed is lower than lower-limit revolution speed at which the catalyst can be heated to the required warm-up temperature, the target revolution speed is controlled so as to be required warm-up revolution speed that is equal to or higher than the lower-limit revolution speed.

An ECU causes an injector to implement multiple split injections during a combustion cycle and to implement a final split injection among the split injections in the latter half of the compression stroke. The ECU further sets a time interval between the injection timing for the final split injection and the ignition timing of an ignition plug at a constant time in a region in which the fuel pressure is the same. Then, the ECU sets a crank angle position based on the time interval and a rotational speed of an output shaft.

An ECU causes an injector to implement multiple split injections during a combustion cycle and to implement a final split injection among the split injections in the latter half of the compression stroke. The ECU further sets a time interval between the injection timing for the final split injection and the ignition timing of an ignition plug at a constant time in a region in which the fuel pressure is the same. Then, the ECU sets a crank angle position based on the time interval and a rotational speed of an output shaft.

An ignition control apparatus, e.g., for an internal combustion engine, includes a rotational speed calculation unit that calculates a rotational speed of an alternating current generator. A rotor of the alternating current generator is driven to rotate in synchronization with reciprocating motion of a piston of the internal combustion engine. An ignition timing determination unit determines an ignition timing of the internal combustion engine based on the rotational speed calculated by the rotational speed calculation unit. An ignition control unit supplies electric power to an ignition coil such that the internal combustion engine is ignited at the timing determined by the ignition timing determination unit.

An ignition control apparatus, e.g., for an internal combustion engine, includes a rotational speed calculation unit that calculates a rotational speed of an alternating current generator. A rotor of the alternating current generator is driven to rotate in synchronization with reciprocating motion of a piston of the internal combustion engine. An ignition timing determination unit determines an ignition timing of the internal combustion engine based on the rotational speed calculated by the rotational speed calculation unit. An ignition control unit supplies electric power to an ignition coil such that the internal combustion engine is ignited at the timing determined by the ignition timing determination unit.

A drive system for driving a motor vehicle has an internal combustion engine and an operating mode coordination device for determining and controlling the operating mode of the internal combustion engine. The drive system has a function coordination device for coordinating secondary functions of the drive system, the function coordination device being designed for generating, based on the coordination of the secondary functions, an operating mode request for the operating mode coordination device for controlling the operating mode of the internal combustion engine, and transmitting it to the operating mode coordination device. The invention further relates to a motor vehicle having a drive system, and a method for operating a drive system of a motor vehicle.

A drive system for driving a motor vehicle has an internal combustion engine and an operating mode coordination device for determining and controlling the operating mode of the internal combustion engine. The drive system has a function coordination device for coordinating secondary functions of the drive system, the function coordination device being designed for generating, based on the coordination of the secondary functions, an operating mode request for the operating mode coordination device for controlling the operating mode of the internal combustion engine, and transmitting it to the operating mode coordination device. The invention further relates to a motor vehicle having a drive system, and a method for operating a drive system of a motor vehicle.

In a control apparatus, a calculation calculates an additional heating amount for an exhaust gas from an internal combustion engine in accordance with an activity of an exhaust purification catalyst in response to the internal combustion engine being required to be started after start of heating of the exhaust purification catalyst by an electric heating device. A drive control unit controls, in accordance with the additional heating amount for the exhaust gas, an amount of heat of the exhaust gas from the internal combustion engine.

In a control apparatus, a calculation calculates an additional heating amount for an exhaust gas from an internal combustion engine in accordance with an activity of an exhaust purification catalyst in response to the internal combustion engine being required to be started after start of heating of the exhaust purification catalyst by an electric heating device. A drive control unit controls, in accordance with the additional heating amount for the exhaust gas, an amount of heat of the exhaust gas from the internal combustion engine.