独立左右轮驱动力控制器在电动汽车双输入双输出电机驱动系统转矩矢量差速器中的应用

IF 0.4 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Electrical Engineering in Japan Pub Date : 2022-09-05 DOI:10.1002/eej.23400

Hiroyuki Fuse, Hiroshi Fujimoto, Kaoru Sawase, Naoki Takahashi, Ryota Takahashi, Yutaro Okamura, Ryosuke Koga

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引用次数: 0

摘要

由双输入双输出系统构成的转矩差分放大转矩矢量差速器(TDA-TVD)具有很大的转弯机动潜力;但由于其复杂的机械结构，导致其滑移比的整体可控性或驱动力控制的难度较大。为了增强TDA-TVD的可控性，本研究提出了一种设计方法，采用一种原本用于独立轮驱动系统的具有良好滑移比和驱动力可控性的驱动力控制器(DFC)。在湿滑路面上对TDA-TVD进行了实车试验验证，结果表明，DFC可以应用于TDA-TVD，提高了TDA-TVD的整体牵引力控制性能。

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Application of independent-left-and-right-wheel-driving force controller to torque vectoring differential with two-input-two-output motor drive system for electrified vehicles

A torque-difference-amplification torque vectoring differential (TDA-TVD), which is composed of a two-input-two-output system, has a great potential for cornering maneuverability; however, the overall controllability of slip ratio or driving force control is difficult owing to its complex mechanical structure. In order to enhance the controllability of TDA-TVD, this study proposes a design method to apply a driving force controller (DFC) with a decent slip ratio and driving force controllability, which was originally intended for independent wheel drive systems. An experimental verification on a slippery road using a real vehicle with the TDA-TVD indicated that the DFC can be applied to the TDA-TVD and that it improves the overall performance of the traction control.

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来源期刊

Electrical Engineering in Japan 工程技术-工程：电子与电气

CiteScore

0.80

自引率

0.00%

发文量

审稿时长

4-8 weeks

期刊介绍： Electrical Engineering in Japan (EEJ) is an official journal of the Institute of Electrical Engineers of Japan (IEEJ). This authoritative journal is a translation of the Transactions of the Institute of Electrical Engineers of Japan. It publishes 16 issues a year on original research findings in Electrical Engineering with special focus on the science, technology and applications of electric power, such as power generation, transmission and conversion, electric railways (including magnetic levitation devices), motors, switching, power economics.