A method for damping control of oscillating modes of a continuously variable transmission which is provided with an electric variator by using a heat engine and at least two electric machines. In the method a torque controller of the electric machines is embodied in a form of a sum of a main instruc
A method for damping control of oscillating modes of a continuously variable transmission which is provided with an electric variator by using a heat engine and at least two electric machines. In the method a torque controller of the electric machines is embodied in a form of a sum of a main instruction enabling to attain set torque on a wheel, heat engine torque, and an additional instruction for damping oscillating modes generated by stiffness of a kinematic chain between the heat engine and the wheels.
대표청구항▼
The invention claimed is: 1. A method of damping oscillating modes of an infinitely variable transmission with electric variator, including a heat engine and at least two electric machines of a vehicle, comprising: calculating a main instruction to attain setpoints for wheel torque and torque of th
The invention claimed is: 1. A method of damping oscillating modes of an infinitely variable transmission with electric variator, including a heat engine and at least two electric machines of a vehicle, comprising: calculating a main instruction to attain setpoints for wheel torque and torque of the heat engine; calculating an instruction supplement to damp the oscillating modes brought about by stiffnesses of a kinematic chain between the heat engine and wheels of the vehicle, the calculating the instruction supplement including adding weighted values of setpoints to weighted values of physical quantities, and the setpoints and the physical quantities are weighted according to a function of an operating point of the vehicle; and adding the instruction supplement to the main instruction to generate a final instruction. 2. The method of damping as claimed in claim 1, wherein the instruction supplement is composed of a first element which is a linear combination of the setpoints, and of a second element which is a linear combination of the physical quantities. 3. The method of damping as claimed in claim 2, wherein the second element includes an estimate of a status of the heat engine. 4. The method of damping as claimed in claim 2, wherein the second element includes an estimate of a speed of the wheels. 5. The method of damping as claimed in claim 2, wherein the second element includes an estimate of a status of the electric machines. 6. The method of damping as claimed in claim 2, wherein the second element includes an estimate of engine torque exchanged between the engine and a box. 7. The method of damping as claimed in claim 2, wherein the second element includes an estimate of torque at the wheels. 8. The method of damping as claimed in claim 2, wherein the second element includes an estimate of frictional torque of the heat engine. 9. The method of damping as claimed in claim 2, wherein the second element includes an estimate of frictional torque at the wheels. 10. The method of damping as claimed in claim 1, wherein each of the setpoints and the physical quantities are weighted with a different coefficient calculated based on the operating point of the vehicle. 11. A device for supervising a transmission of a vehicle to ensure regulation of torque at wheels and of thermal status of an infinitely variable transmission with electric variator, comprising: a heat engine; at least two electric machines; a mechanical decoupling unit positioned between the heat engine and the electric machines, and the mechanical decoupling unit calculates a main instruction to attain setpoints of the electric machines; and a damping unit for the torsional modes, which calculates an instruction supplement that is added to the main instruction, the instruction supplement damping oscillating modes brought about by stiffnesses of a kinematic chain between the heat engine and the wheels, and the damping unit for the torsional modes calculates the instruction supplement by adding weighted values of setpoints to weighted values of physical quantities, and the setpoints and the physical quantities are weighted according to a function of an operating point of the vehicle. 12. The supervising device as claimed in claim 11, wherein the mechanical decoupling unit receives two instructions calculated in a mechanical regulating unit based on setpoints and estimates of a status of the heat engine and of the torque at the wheels. 13. The supervising device as claimed in claim 12, further comprising a mechanical determination unit affording estimation of an engine status, and of the torque at the wheels. 14. The supervising device as claimed in claim 13, wherein the mechanical determination unit, the mechanical regulating unit, the mechanical decoupling unit, and the damping unit for the torsional modes, are grouped together in a mechanical supervising unit affording regulation of the torque at the wheels and status of the heat engine. 15. The supervising device as claimed in claim 13, wherein the mechanical determination unit establishes an estimation vector for the oscillating modes, which is intended for calculation of the instruction supplement. 16. The supervising device as claimed in claim 15, wherein the estimation vector for the oscillating modes is transmitted to the mechanical decoupling unit and to the damping unit for the torsional modes. 17. The supervising device as claimed in claim 11, wherein the damping unit for the torsional modes weights each of the setpoints and the physical quantities with a different coefficient calculated based on the operating point of the vehicle.
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