A control device that controls a vehicle drive device in which a first engagement device, a rotating electrical machine, a second engagement device, and an output member are sequentially arranged in this order from an input member side on a power transmission path that connects the input member driv
A control device that controls a vehicle drive device in which a first engagement device, a rotating electrical machine, a second engagement device, and an output member are sequentially arranged in this order from an input member side on a power transmission path that connects the input member drivingly coupled to an internal combustion engine to the output member drivingly coupled to wheels. The control device controls both the first engagement device and the second engagement device to a slip engaged state, and causes the rotating electrical machine to generate electric power.
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1. A control device that controls a vehicle drive device in which a first engagement device, a rotating electrical machine, a second engagement device, and an output member are sequentially arranged in this order from an input member side on a power transmission path that connects the input member d
1. A control device that controls a vehicle drive device in which a first engagement device, a rotating electrical machine, a second engagement device, and an output member are sequentially arranged in this order from an input member side on a power transmission path that connects the input member drivingly coupled to an internal combustion engine to the output member drivingly coupled to wheels, wherein the control device controls both the first engagement device and the second engagement device to a slip engaged state, and causes the rotating electrical machine to generate electric power in a state that the input member is driven by the internal combustion engine. 2. The control device according to claim 1, wherein in a state in which torque transferred to the input member is transferred to the output member, the control device controls the rotating electrical machine so that an amount of power generation by the rotating electrical machine becomes equal to a predetermined required power generation amount, and controls the second engagement device so that the torque that is transferred to the output member becomes equal to a vehicle required torque that is required to drive a vehicle. 3. The control device according to claim 2, wherein the control device controls the first engagement device so that a transfer torque capacity of the first engagement device becomes equal to a sum of power generation torque that is applied to the rotating electrical machine in order to cause the rotating electrical machine to generate the electric power and the vehicle required torque. 4. The control device according to claim 2, wherein the control device controls the rotating electrical machine so that a rotational speed of the rotating electrical machine becomes equal to a predetermined target rotational speed, and controls the second engagement device so that a transfer torque capacity of the second engagement device becomes equal to the vehicle required torque. 5. The control device according to claim 4, wherein the target rotational speed is set to a value lower than a rotational speed of the input member and higher than the rotational speed of the output member, and is set based on at least the required power generation amount. 6. The control device according to claim 4, wherein a target differential rotational speed as a target value of a differential rotational speed between engagement members on both sides of the second engagement device is determined based on an allowable upper limit temperature of the second engagement device that is provided to allow the second engagement device to operate continuously, andthe target rotational speed is determined based on at least the target differential rotational speed. 7. The control device according to claim 4, wherein the target rotational speed is determined based on at least one of an allowable upper limit temperature of the rotating electrical machine that is provided to allow the rotating electrical machine to operate continuously and an allowable upper limit temperature of a controller of the rotating electrical machine that is provided to allow the controller to operate continuously. 8. The control device according to claim 2, wherein the required power generation amount is set in advance based on rated power consumption of an auxiliary machine provided in the vehicle. 9. The control device according to claim 2, wherein actual power consumption of an auxiliary machine provided in the vehicle during traveling of the vehicle is calculated, andthe required power generation amount is set based on the actual power consumption. 10. The control device according to claim 1, wherein in a first specific traveling state in which an estimated rotational speed of the rotating electrical machine, which is determined based on a rotational speed of the output member on an assumption that the second engagement device is in a direct-coupling engaged state having no differential rotation, is lower than a required rotational speed of the rotating electrical machine that is required to secure the predetermined required power generation amount, the control device controls both the first engagement device and the second engagement device to the slip engaged state, and causes the rotating electrical machine to generate the electric power by the torque that is transferred to the input member, andin a second specific traveling state in which the estimated rotational speed is equal to or higher than the required rotational speed, the control device controls the first engagement device to the slip engaged state and the second engagement device to the direct-coupling engaged state, and causes the rotating electrical machine to generate the electric power by the torque that is transferred to the input member. 11. The control device according to claim 1, wherein the control device controls the vehicle drive device which includes, between the rotating electrical machine and the output shaft, a speed change mechanism having one or more engagement devices and capable of switching between a plurality of shift modes by selectively drivingly coupling the one or more engagement devices, and in which one of the one or more engagement devices is the second engagement device.
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이 특허에 인용된 특허 (8)
Shiiba, Hidenori, Apparatus and method for controlling hybrid vehicle.
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