具有全功率/电压范围多相操作功能的双向电动汽车车载充电器的设计与实验验证

IF 5.2 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Héctor Sarnago;Óscar Lucía
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引用次数: 0

摘要

现代电动汽车需要能够在各种工作条件下运行的电力电子系统,包括车载充电器(OBC)和直流-直流转换器。这些系统必须在相数、输入电压和输出电池电压等多种参数下运行。考虑到现代设计标准,实现具有高效率和低成本特点的高性能实施也是强制性的,从而增加了额外的技术挑战。为应对这些挑战,本文提出了一种新颖的 OBC 架构,可在整个输出功率范围内以三相和单相配置运行。该架构无需额外的功率元件,也不会降低性能。因此,所提出的解决方案是一种通用充电单电源处理模块,其特点是实施成本低,同时实现了高功率密度和高效率。本文设计并构建了一个双向 11 千瓦 800 伏电池电压系统原型,用于 400 伏(线对线)主电源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and Experimental Verification of a Bidirectional EV On-Board Charger Featuring Multiphase Operation in Full Power/Voltage Ranges
Modern electric vehicles require power electronic systems capable of operating under a wide variety of operating conditions, including on-board chargers (OBCs) and dc–dc converters. These systems must function across a wide range of parameters, such as phase number, input voltage, and output battery voltage. Considering modern design standards, achieving a high-performance implementation featuring high efficiency and low cost is also mandatory, adding additional technical challenges. To address these challenges, this article proposes a novel OBC architecture designed to operate in both three-phase and single-phase configurations across the full output power range. This is achieved without requiring additional power components or degrading performance. As a consequence, the proposed solution is a universal-charging single-power-processing block that features a cost-effective implementation while achieving high power density and efficiency. In this article, a bidirectional 11-kW 800-V-battery-voltage prototype of the system is designed and constructed for a 400-V (line-to-line) mains supply.
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来源期刊
IEEE Open Journal of the Industrial Electronics Society
IEEE Open Journal of the Industrial Electronics Society ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
10.80
自引率
2.40%
发文量
33
审稿时长
12 weeks
期刊介绍: The IEEE Open Journal of the Industrial Electronics Society is dedicated to advancing information-intensive, knowledge-based automation, and digitalization, aiming to enhance various industrial and infrastructural ecosystems including energy, mobility, health, and home/building infrastructure. Encompassing a range of techniques leveraging data and information acquisition, analysis, manipulation, and distribution, the journal strives to achieve greater flexibility, efficiency, effectiveness, reliability, and security within digitalized and networked environments. Our scope provides a platform for discourse and dissemination of the latest developments in numerous research and innovation areas. These include electrical components and systems, smart grids, industrial cyber-physical systems, motion control, robotics and mechatronics, sensors and actuators, factory and building communication and automation, industrial digitalization, flexible and reconfigurable manufacturing, assistant systems, industrial applications of artificial intelligence and data science, as well as the implementation of machine learning, artificial neural networks, and fuzzy logic. Additionally, we explore human factors in digitalized and networked ecosystems. Join us in exploring and shaping the future of industrial electronics and digitalization.
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