基于马达与液压作动器协同应用的双机动车辆稳定性控制

2011 4th International Conference on Power Electronics Systems and Applications Pub Date : 2011-06-08 DOI:10.1109/PESA.2011.5982902

Xie Shaobo, Lin Cheng

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引用次数: 0

摘要

本文研究了两个驱动电机分别连接到两个前轮的电动汽车。电机的个体控制特性可以产生偏航力矩，从而提高电机的主动安全性能，如电气稳定规划(ESP)功能。提出了由电机单独提供制动力矩，并与ESP装置的液压系统一起提供制动力矩，以满足所要求的偏航力矩。首先，建立了含非线性轮胎的车辆动力学模型。然后给出了横摆稳定性的两层控制结构，以产生横摆力矩并协调电机力矩和液压。通过单车道变道和回转机动仿真验证了该方法的有效性。结果表明，该电机可以辅助ESP实现偏航稳定，并节省能量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Stability control of a dual-motor vehicle based on coordinated application of motor and hydraulic actuator

The paper studies an electric vehicle with two driving motors connected to both front wheels independently. The character of individual control of the motors can generate the yaw moment to improve the active safety performance like the function of Electric Stability Programming (ESP). The paper proposes to provide the braking torque by the individual motor together with the hydraulic system of the ESP unit to satisfy the desired yaw moment. First, a dynamic vehicle model with nonlinear tire is established. Then a two-layer control structure of the yaw stability is given to produce the yaw moment and coordinate the motor torque and the hydraulic pressure. The simulation including the single lane change and slalom maneuver is conducted to validate the proposed method. The results show that the motors can assist the ESP to realize the yaw stability and also save the energy.

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2011 4th International Conference on Power Electronics Systems and Applications

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