Operation and Control of an Active Power Collector for Roadside Feeding Electric Road System

IF 1.9 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IET Electrical Systems in Transportation Pub Date : 2023-10-26 DOI:10.1049/2023/6635396

Saleh A. Ali, Volker Pickert, Mohammed A. Alharbi, Handong Li, Haris Patsios

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引用次数: 0

Abstract

The integration of electric vehicles (EVs) as an environmentally sustainable alternative to traditional fossil fuel cars faces a range of technological obstacles, including battery technology, charging infrastructure, and standardization. Dynamic conductive road charging (DCRC) of EVs at high speed has the potential to overcome the technical limitations of existing static charging methods. An intelligent motorway system for EVs called tracked electric vehicle (TEV) was proposed to incorporate the latest technologies of dynamic road charging, autonomous driving, and smart city data into transport infrastructure. This paper presents the operation and control of an active bipolar power collection unit (PCU) for the TEV system. The PCU is seamlessly integrated within the wheel structure of an EV using the concept of a stationary-hub wheel, enabling conductive power transfer from roadside conduction rails while the vehicle is in motion. The PCU is equipped with various features designed to maintain the contact force (CF) with the conduction rails, effectively handle instances of wheel bouncing and vibrations, and ensure a consistently smooth dynamic power transfer. This paper presents the experimental validations of the active PCU controls, including the operation sequence of the PCU, CF control, and PCU interaction with wheel bouncing.

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路边供电电力道路系统有源集热器的运行与控制

电动汽车(ev)作为传统化石燃料汽车的环境可持续替代品，面临着一系列技术障碍，包括电池技术、充电基础设施和标准化。电动汽车高速动态导电道路充电(DCRC)有望克服现有静态充电方法的技术局限性。提出了一种名为履带式电动汽车(TEV)的智能高速公路系统，将动态道路充电、自动驾驶和智慧城市数据等最新技术纳入交通基础设施。本文介绍了用于TEV系统的有源双极电源采集单元(PCU)的工作和控制。采用固定轮毂的概念，PCU可以无缝集成到电动汽车的车轮结构中，从而在车辆行驶时实现路边传导轨道的导电电力传输。PCU配备了各种功能，旨在保持与传导轨道的接触力(CF)，有效地处理车轮弹跳和振动的实例，并确保始终平稳的动态动力传递。本文给出了主动PCU控制的实验验证，包括PCU的操作顺序、CF控制以及PCU与车轮弹跳的相互作用。

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

IET Electrical Systems in Transportation Multiple-

CiteScore

5.80

自引率

4.30%

发文量

审稿时长

29 weeks