Power Quality Control Method for Hybrid Electric Vehicle

Abstract

The invention provides a power quality control method of a hybrid power electric vehicle. The power quality control method comprises the following steps of: the step 1, on-line receiving or distinguishing the operation information of a hybrid power system, the status information of the vehicle, and the operation information of a driver; the step 2, executing the instruction torque and the instruction power control of the driver; the step 3, executing power and energy management control on the vehicle, and computing a primary control instruction to power sources and judging the switching of operational modes; the step 4, executing power quality active control based on the prediction and feedback mode of the shock degree of the vehicle; the step 5, switching power quality active control based on the pre-adjust and feedback modes of power source rotational speed; the step 6, executing self-learning on the actively acquired power source dynamic response based on the characteristic working conditions; and the step 7, outputting a control instruction to each power source. According to the power quality control method disclosed by the invention, the real-time control of the power quality of the hybrid power electric vehicle is realized, and the method has the characteristics of being good in power quality, and easy to realize for actual vehicles.

Description

technical field [0001] The invention relates to a hybrid electric vehicle control technology, in particular to a method for controlling power quality of a hybrid electric vehicle. Background technique [0002] Hybrid electric vehicles (including plug-in hybrid electric vehicles) have become the focus and hotspot of global development. They are operated under the control of the control system by a variety of energy sources and a variety of heterogeneous power sources through electromechanical coupling. Due to the different power output characteristics of various heterogeneous power sources, the power quality of the vehicle deteriorates, which affects the driving comfort and adversely affects the reliability of the vehicle. Therefore, it is necessary to effectively control the power quality of hybrid electric vehicles. [0003] At present, for the control of the power quality of hybrid electric vehicles, the ramp function is generally used to suppress the sudden change of the...

AI Technical Summary

Problems solved by technology

However, the determination of the ramp function is often not sufficient for the characteristics of each power source, and it relies heavily on test calibration and excessive suppression, resulting in the failure to fully utilize the performance potential of each power source in the system in order to achieve shock suppression, affecting vehicle dynamics and economy. There is a difference between the actual output of the power source and the command output, and the accumulation of this difference leads to large fluctuations in the driving torque, which in turn causes the deterioration of the vehicle shock

On the other hand, hybrid power systems often have a variety of operating modes, and the existing control methods often only consider the rapid completion of the mode switching to control the switching process, and do not take the vehicle shock during the switching process and after the switching as the mode. Optimization objectives for switching control leading to vehicle shock problems caused by mode switching control

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