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Active Return-to-Center Control Based on Torque and Angle Sensors for Electric Power Steering Systems

机译:基于扭矩和角度传感器的主动转向中心控制用于电动助力转向系统

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摘要

This paper presents a complete control strategy of the active return-to-center (RTC) control for electric power steering (EPS) systems. We first establish the mathematical model of the EPS system and analyze the source and influence of the self-aligning torque (SAT). Second, based on the feedback signals of steering column torque and steering wheel angle, we give the trigger conditions of a state switch between the steering assist state and the RTC state. In order to avoid the sudden change of the output torque for the driving motor when the state switches frequently between the steering assist state and the RTC state, we design an undisturbed state switching logic algorithm. This state switching logic algorithm ensures that the output value of the RTC controller is set to an initial value and increases in given steps up to a maximum value after entering the RTC state, and the output value of the RTC controller will reduce in given steps down to zero when exiting the RTC state. This therefore ensures smooth switch control between the two states and improves the driver’s steering feeling. Third, we design the RTC controller, which depends upon the feedback signals of the steering wheel angle and the angular velocity. In addition, the controller increases the auxiliary control function of the RTC torque based on vehicle speed. The experimental results show that the active RTC control method does not affect the basic assist characteristics, which effectively reduces the residual angle of the steering wheel at low vehicle speed and improves the RTC performance of the vehicle.
机译:本文提出了电动助力转向(EPS)系统主动返回中心(RTC)控制的完整控制策略。我们首先建立EPS系统的数学模型,然后分析自对准扭矩(SAT)的来源和影响。其次,根据转向柱扭矩和方向盘转角的反馈信号,给出转向辅助状态和RTC状态之间状态切换的触发条件。为了避免在转向辅助状态和RTC状态之间频繁切换时驱动电机的输出转矩突然变化,我们设计了一种不受干扰的状态切换逻辑算法。此状态切换逻辑算法可确保将RTC控制器的输出值设置为初始值,并在进入RTC状态后以给定的步长增加直至最大值,而RTC控制器的输出值将以给定的步长减小退出RTC状态时为零。因此,这确保了两种状态之间的平稳切换控制,并改善了驾驶员的转向感。第三,我们设计了RTC控制器,该控制器取决于方向盘角度和角速度的反馈信号。另外,控制器基于车速增加RTC扭矩的辅助控制功能。实验结果表明,主动式RTC控制方法不影响基本辅助特性,有效地降低了低车速时方向盘的剩余角度,提高了车辆的RTC性​​能。

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