Improving powertrain efficiency through torque modulation techniques in single and dual motor electric vehicles

Q1 Engineering Transportation Engineering Pub Date : 2024-11-10 DOI:10.1016/j.treng.2024.100289

Y. Xu , P. Ingelström , A. Kersten , A. Andersson , S. Klacar , S. George , D. Sedarsky

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Abstract

Battery Electric Vehicles (BEVs) typically experience reduced powertrain energy efficiency under low-torque operating conditions. This issue can be mitigated by torque modulation, i.e., alternating driver torque demand between zero and an appropriate value. This paper aims to maximize the efficiency improvement of torque modulation and investigate its potential in two powertrain topologies: single and dual motor powertrains. To this end, optimal modulation strategies are proposed for both powertrains, considering overall powertrain energy losses and specific powertrain characteristics. Additionally, the adverse impact on driver comfort and powertrain durability due to the pulsating torque is examined. The results suggest that the proposed optimal modulation strategies can enhance powertrain efficiency while maintaining acceptable levels of driver comfort and powertrain durability. In addition, complementary modulation and torque distribution can be applied in the dual motor powertrain to provide further energy-saving potential and reduced impact on driver comfort.

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通过单电机和双电机电动汽车的扭矩调节技术提高动力总成效率

在低扭矩运行条件下，电池电动汽车（BEV）的动力总成能效通常会降低。这一问题可以通过扭矩调制来缓解，即在零和适当值之间交替调节驱动扭矩需求。本文旨在最大限度地提高扭矩调制的效率，并研究其在两种动力总成拓扑结构（单电机和双电机动力总成）中的潜力。为此，考虑到动力总成的整体能量损失和动力总成的具体特性，为这两种动力总成提出了最佳调制策略。此外，还研究了脉动扭矩对驾驶舒适性和动力总成耐用性的不利影响。结果表明，所提出的最佳调制策略可以提高动力总成效率，同时保持可接受的驾驶舒适性和动力总成耐用性水平。此外，在双电机动力总成中还可采用互补调制和扭矩分配，以进一步提高节能潜力并减少对驾驶员舒适性的影响。

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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