Study of Supercapacitor Utilization on Regenerative Braking System: Design and Simulation

2018 5th International Conference on Electric Vehicular Technology (ICEVT) Pub Date : 2018-10-01 DOI:10.1109/ICEVT.2018.8628374

Diaz Angga Permana, Umar Sholahuddin, D. Hamdani, T. D. Rachmildha

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引用次数: 2

Abstract

The development of electric vehicles and regenerative braking are dependent on energy storage development. Battery's low lifecycle always be a concern to be overcome which electric vehicle requires a charging and discharging cycle. The development of Hybrid Energy Storage System (HESS) is increasing., which combined the supercapacitor to a battery which has a high cycle life. In this paper., the HESS system and motor current driver controller are proposed. This system is to eliminate the charging current to the battery and surge battery current that can damage the battery. In this paper., the controller is designed for Mr. Jackie's Electric Bicycle that controls into four modes., starting., motoring and accelerating., braking., and supercapacitor charging. This system also tested with NYCC and UC/ECE driving behavior that represents the big city and the freeway driving behavior. The controller successfully follows the reference current. It found that the higher braking force is applied., the less efficient the system will be. However., it also found that the applied braking current is lower than a certain number., the system will be less efficient. The utilization of supercapacitor makes the Depth of Discharge of the battery is decreasing.

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超级电容器在再生制动系统中的应用研究:设计与仿真

电动汽车和再生制动的发展都依赖于储能技术的发展。电池寿命短一直是电动汽车充放电循环需要克服的问题。混合储能系统(HESS)的发展日益迅速。，将超级电容器组合成具有高循环寿命的电池。在本文中。提出了HESS系统和电机电流驱动控制器。该系统是为了消除电池的充电电流和浪涌电池电流，可以损坏电池。在本文中。，这个控制器是为Jackie先生的电动自行车设计的，可以控制四种模式。,开始。驾驶和加速。、制动。超级电容器充电。该系统还测试了代表大城市和高速公路驾驶行为的NYCC和UC/ECE驾驶行为。控制器跟随参考电流成功。研究发现，制动力越大。，系统的效率就越低。然而。，还发现所施加的制动电流低于某一数值。，系统的效率就会降低。超级电容器的应用使电池的放电深度不断减小。

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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2018 5th International Conference on Electric Vehicular Technology (ICEVT)

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