Modeling and Integration of Electric Vehicle Regenerative and Friction Braking for Motor/Dynamometer Test Bench Emulation

Poria Fajri; Sangin Lee; Venkata Anand Kishore Prabhala; Mehdi Ferdowsi

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Modeling and Integration of Electric Vehicle Regenerative and Friction Braking for Motor/Dynamometer Test Bench Emulation

机译：电动汽车测功机模拟的电动汽车再生制动与摩擦制动建模与集成

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摘要

This paper provides a new approach for emulating electric vehicle (EV) braking performance on a motor/dynamometer test bench. The brake force distribution between regenerative braking and friction braking of both the front and rear axles are discussed in detail. A brake controller is designed, which represents a very close model of an actual EV braking system and takes into account both regenerative and friction braking limitations. The proposed brake controller is then integrated into the controller of an EV hardware-in-the-loop (HIL) test bench, and its performance is validated in real-time. The effect of adding the brake model is further investigated by comparing the experimental HIL energy consumption results with those obtained from ADvanced VehIcle SimulatOR (ADVISOR).

机译：本文提供了一种在电动机/测功机测试台上模拟电动汽车（EV）制动性能的新方法。详细讨论了前桥和后桥的再生制动和摩擦制动之间的制动力分配。设计了一种制动控制器，它代表了实际EV制动系统的非常接近的模型，并考虑了再生制动和摩擦制动的局限性。然后将提出的制动控制器集成到EV硬件在环（HIL）测试台的控制器中，并对其性能进行实时验证。通过比较实验性HIL能耗结果与从高级车辆仿真器（ADVISOR）获得的结果，可以进一步研究添加制动模型的效果。

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来源
《IEEE Transactions on Vehicular Technology》 |2016年第6期|4264-4273|共10页
作者
Poria Fajri; Sangin Lee; Venkata Anand Kishore Prabhala; Mehdi Ferdowsi;
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作者单位

Department of Electrical and Computer Engineering, North Carolina State University, Raleigh, NC, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Brake controller; electric vehicle (EV); friction braking; motor/dynamometer; regenerative braking;

机译：制动控制器;电动汽车（EV）;摩擦制动;电动机/测功机;再生制动;

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专利

1. Cooperative control of regenerative braking and friction braking in the transient process of anti-lock braking activation in electric vehicles [J] . Zhang Lei, Yu Liangyao, Pan Ning, Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2016,第11期

机译：电动汽车防抱死制动过程瞬态过程中的再生制动与摩擦制动协同控制
2. Cooperative control of regenerative braking and friction braking for a hybrid electric vehicle [J] . Kumar C. S. Nanda, Subramanian Shankar C. Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2016,第1期

机译：混合动力汽车的再生制动和摩擦制动的协同控制
3. Skid control of a small electric vehicle with two in-wheel motors: simulation model of ABS and regenerative brake control [J] . Bin Peeie Mohamad Heerwan, Ogino Hirohiko, Oshinoya Yasuo International journal of crashworthiness . 2016,第5a6期

机译：具有两个轮毂电机的小型电动汽车的滑行控制：ABS仿真模型和再生制动控制
4. Emulating electric vehicle regenerative and friction braking effect using a Hardware-in-the-Loop (HIL) motor/dynamometer test bench [C] . Fajri Poria, Prabhala Venkata Anand K., Lotfi Nima, Annual Conference of the IEEE Industrial Electronics Society . 2014

机译：使用硬件在环（HIL）电机/测功机测试台模拟电动汽车的再生和摩擦制动效果
5. Electric-drive vehicle emulation using advanced test bench. [D] . Fajri, Poria. 2014

机译：使用高级测试台进行电动汽车仿真。
6. Design and Modeling of a Test Bench for Dual-Motor Electric Drive Tracked Vehicles Based on a Dynamic Load Emulation Method [O] . Zhe Wang, Haoliang Lv, Xiaojun Zhou, 2018

机译：基于动态负荷仿真方法的双电机履带车辆试验台的设计与建模
7. Skid Control of a Small Electric Vehicle with Two In-Wheel Motors: Simulation Model of ABS and Regenerative Brake Control [O] . Mohamad Heerwan Peeie, Ogino Hirohiko, Oshinoya Yasuo 2016

机译：带有两个轮毂电机的小型电动汽车的打滑控制：ABS仿真模型和再生制动控制
8. Testing of an Electric Vehicle on a Clayton Water-Brake Chassis Dynamometer [R] . Schaefer, R. M. 1994

机译：在克莱顿水制动器底盘测功机上测试电动汽车

Modeling and Integration of Electric Vehicle Regenerative and Friction Braking for Motor/Dynamometer Test Bench Emulation

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