磁共振耦合对电动汽车动力传输系统的影响

B. Pranesh, Dr G. Suresh Babu
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引用次数: 0

摘要

摘要:这项研究调查了磁共振耦合(MRC)在电动汽车(EV)电力传输中的创新应用,重点关注其潜力和挑战。主要目标包括了解 MRC 的工作原理、优化效率以及解决现实世界中的电动汽车充电问题。内容包括线圈设计、谐振频率调整和功率控制等基本组件,并利用 MATLAB 和 Simulink 进行各种条件下的性能仿真。报告强调了 MRC 对电动汽车充电基础设施的影响,并着重介绍了功率传输和效率方面的进步。研究结果有望彻底改变电动汽车充电方式,带来更高效、便捷和可持续的电力传输方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Impact of Magnetic Resonance Coupling in Electric Vehicle Power Transfer Systems
Abstract: This research investigates the innovative use of Magnetic Resonance Coupling (MRC) in Electric Vehicle (EV) power transfer, focusing on its potential and challenges. Key objectives include understanding MRC's operational principles, optimizing efficiency, and tackling real-world EV charging issues. Essential components like coil design, resonance frequency tuning, and power control are covered, utilizing MATLAB and Simulink for performance simulation under various conditions. The impact of MRC on EV charging infrastructure is highlighted, emphasizing advancements in power transmission and efficiency. The findings promise to revolutionize EV charging, leading to more efficient, convenient, and sustainable power transfer methods.
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