The embodiment of the invention provides an execution control device applied to a charging door of an electric vehicle, the electric vehicle and a method, and the device comprises a processing unit which is coupled with a driving motor and detects an electrical parameter signal of the driving motor; the processing unit is used for responding to at least one preset triggering condition and executing a self-learning calibration process, and the self-learning calibration process comprises an electrical parameter threshold calibration process which comprises the following steps: acquiring a current electrical parameter signal of the charging gate in a current stroke; extracting a current normal electrical parameter signal value corresponding to the unblocked position based on the current electrical parameter signal; and calibrating at least one corresponding electrical parameter threshold value based on the current normal electrical parameter signal value by using at least one preset calculation relationship between the normal electrical parameter signal value and the at least one electrical parameter threshold value. The device can realize self-learning of threshold values of anti-pinch, locked-rotor and other functions, is suitable for practical application of various charging doors, and effectively improves user experience.
本公开实施例中提供应用于电动车的充电门的执行控制装置、电动车及方法,装置包括:处理单元,耦接驱动电机,侦测驱动电机的电性参数信号;处理单元,用于响应于满足至少一种预设触发条件,执行自学习标定流程,包括:电性参数阈值标定流程,包括:获取充电门在当前行程中的当前电性参数信号;基于当前电性参数信号提取对应未受阻位置的当前常态电性参数信号值;以及,利用表示常态电性参数信号值与至少一个电性参数阈值之间的至少一种预设计算关系,基于当前常态电性参数信号值标定对应的至少一个电性参数阈值。该装置可实现防夹、堵转等功能的阈值的自学习,适应各种充电门的实际应用,有效提升用户体验。
Execution control device applied to charging door of electric vehicle, electric vehicle and method
应用于电动车的充电门的执行控制装置、电动车及方法
2024-04-05
Patent
Elektronische Ressource
Chinesisch