A control algorithm to follow the limitations of an electric vehicle motor using the Tm4 Sumo drive as an example

Journal of Civil Engineering and Transport Pub Date : 2024-03-04 DOI:10.24136/tren.2024.001

Jacek Barcik, Gabriel Kost, Mariusz Hetmanczyk

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Abstract

The article discusses development work on the control system of an electric vehicle considering the limitations of the TM4 Sumo power unit. Particular attention was focused on the development of a new algorithm for controlling the final phase of braking (using a retarder) at low speeds, using proprietary regulators based on the prediction of braking force values. The developed algorithm is universal (works with various drive units) automatically adjusting the setting values. At the same time, the authors paid particular attention to the elimination of the phenomenon of oscillation of the engine torque value in the final phase of braking and the synergy of the classic braking system of a commercial vehicle with electric drive braking. The article also discusses proprietary tools and software for monitoring and collecting measurement data from electric vehicles. The control algorithm is one of the products offered on the market as a solution provided by the DIGA Civil Partnership. The presented results were collected from real objects as part of implementations carried out by the authors.

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以 Tm4 Sumo 驱动器为例，介绍一种遵循电动汽车电机限制的控制算法

文章讨论了考虑到 TM4 Sumo 动力装置的局限性而进行的电动汽车控制系统开发工作。其中特别关注了一种新算法的开发，该算法用于控制低速制动的最后阶段（使用缓速器），使用基于制动力值预测的专有调节器。所开发的算法具有通用性（适用于各种驱动装置），可自动调整设定值。同时，作者特别注意消除制动最后阶段发动机扭矩值的振荡现象，以及商用车经典制动系统与电力驱动制动系统的协同作用。文章还讨论了用于监控和收集电动车辆测量数据的专有工具和软件。该控制算法是 DIGA 民事合伙公司在市场上提供的解决方案产品之一。文中介绍的结果是作者在实施过程中从实际物体中收集的。

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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Journal of Civil Engineering and Transport

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