Ride Quality Improvement in Passenger Cars Using Regenerative Dampers: A Field-Oriented Control Approach

2021 International Conference on Mechatronics, Electronics and Automotive Engineering (ICMEAE) Pub Date : 2021-11-01 DOI:10.1109/ICMEAE55138.2021.00015

Irving S. Aguilar-Zamorate, R. Galluzzi, Rogelio Bustamante-Bello

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Abstract

This paper proposes the implementation of a regenerative damper and its control to attain comfort and handling improvements on a passenger car. In the past, numerous efforts have focused on the development of actuators able to harvest energy from suspension vibrations. However, less effort has been devoted to the development of suitable control strategies at the level of the electric motor that performs this energy conversion. To achieve this goal, a quarter-car model of the reference vehicle is simulated in a MATLAB/Simulink™ environment. We apply comfort- and handling-oriented strategies (skyhook and groundhook), as well as constant damping reproduction. The permanent-magnet synchronous machine inside the damper is modeled in dq axes and field-oriented control is implemented with field weakening using maximum torque per ampere and volt methods. This guarantees safe damping operation as speed escalates. It is demonstrated that the machine can fulfill the desired damping task within its operational limits.

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利用再生阻尼器改善乘用车平顺性:一种面向场的控制方法

本文提出了一种可再生阻尼器及其控制的实现方法，以改善乘用车的舒适性和操控性。在过去，许多努力都集中在开发能够从悬架振动中获取能量的执行器上。然而，在执行这种能量转换的电动机水平上，致力于开发合适的控制策略的努力较少。为了实现这一目标，在MATLAB/Simulink™环境中对参考车辆的四分之一汽车模型进行了仿真。我们采用以舒适性和操控性为导向的策略(天钩和地钩)，以及恒定的阻尼再现。在dq轴上对阻尼器内的永磁同步电机进行建模，并采用最大转矩/安培法和伏特法实现磁场定向控制。这保证了速度升级时的安全阻尼操作。结果表明，该机床在其工作范围内能够完成预期的阻尼任务。

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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来源期刊

2021 International Conference on Mechatronics, Electronics and Automotive Engineering (ICMEAE)

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