Frequency-Domain Analysis and Joint Torque Vibration Suppression Control on Two-Input-Two-Output Torque Difference Amplification Motor Drive System of Electrified Vehicles

IF 2.8 Q2 TRANSPORTATION SCIENCE & TECHNOLOGY

SAE International Journal of Vehicle Dynamics Stability and NVH Pub Date : 2023-06-28 DOI:10.4271/10-07-03-0020

H. Fuse, G. Yu, H. Fujimoto, K. Sawase, N. Takahashi, Ryota Takahashi, Y. Okamura, Ryosuke Koga

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引用次数: 1

Abstract

To improve the cornering performance, a torque vectoring differential (TVD) that generates a torque difference between the left and right wheels has been developed. Particularly, the use of multiple electric traction motors can easily achieve this. A TVD with a two-motor-torque difference amplification mechanism (TDA-TVD), which employs a unique alignment of planetary gears, has been studied and it can generate a larger torque difference compared to an individual-wheel-drive (IWD) system in the case of using the equal torque output from the traction motors. However, due to the mechanically complicated driving force transmission system including driveshafts and planetary gears, TDA-TVD is prone to cause torsional vibrations of the driveshaft, and the yaw rate of the vehicle body while differential torque is generated. A previous study derived a dynamic model TDA-TVD and designed a vibration suppression feedforward controller. While the study demonstrated a certain vibration suppression performance, it did not strictly consider the load side characteristics during the yaw motion. In addition, there was no frequency-domain analysis either. On the other hand, this study will analyze TDA-TVD in the frequency domain and propose a novel modeling method to construct vibration suppression controllers that deal with both longitudinal motion and yaw motion simultaneously. First, this article shows a theoretical frequency-domain analysis using matrices and obtains resonance frequencies of TDA-TVD. Second, TDA-TVD is modeled based on a summation-differential mode transformation (SDMT). Third, simulations and experimental evaluations of vibration suppression controls using a real vehicle equipped with the TDA-TVD are demonstrated.

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电动汽车双输入双输出转矩差放大电机驱动系统频域分析及联合转矩减振控制

为了提高车辆的转弯性能，研制了一种产生左右车轮转矩差的转矩矢量差速器(TVD)。特别是，使用多个电动牵引电机可以很容易地实现这一点。研究了一种采用独特行星齿轮对中方式的双电机转矩差放大机构(TDA-TVD)，在使用牵引电机输出相同转矩的情况下，与单轮驱动(IWD)系统相比，TDA-TVD产生的转矩差更大。然而，由于包括传动轴和行星齿轮在内的机械复杂的驱动力传递系统，TDA-TVD在产生差动扭矩时容易引起传动轴的扭转振动和车身的偏航率。前人建立了TDA-TVD动力学模型，并设计了振动抑制前馈控制器。虽然该研究显示了一定的减振性能，但没有严格考虑偏航运动时的载荷侧特性。此外，也没有进行频域分析。另一方面，本研究将在频域分析TDA-TVD，并提出一种新的建模方法来构建同时处理纵向运动和偏航运动的减振控制器。本文首先用矩阵法进行了理论频域分析，得到了TDA-TVD的共振频率。其次，基于和微分模态变换(SDMT)对TDA-TVD进行建模。第三，对安装TDA-TVD的实车进行了振动抑制控制仿真和实验评估。

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

SAE International Journal of Vehicle Dynamics Stability and NVH TRANSPORTATION SCIENCE & TECHNOLOGY-

CiteScore

6.40

自引率

41.20%

发文量