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用于无刷直流电机应用的新型直流-直流交错式升压转换器设计。

Design of novel DC-DC interleaved boost converter for BLDC application.

作者信息

Preethiraj P M, Belwin Edward J

机构信息

Vellore Institute of Technology, Vellore, 632014, Tamilnadu, India.

出版信息

Heliyon. 2024 Nov 4;10(22):e40041. doi: 10.1016/j.heliyon.2024.e40041. eCollection 2024 Nov 30.

DOI:10.1016/j.heliyon.2024.e40041
PMID:39748976
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11693905/
Abstract

The gradual increment of renewable energy sources (RES) integration in the power generation system is involved in achieving the maximum power demand in the world. In RES fuel cells are used for storage systems of energy. The increment and decrement of voltage level can be controlled by the different types of converters as per the application. Based on that researchers have introduced different types of converters like interleaved converters for voltage-boosting applications to operate the drive. But the converters are involved with higher parts count, switching losses, efficient speed regulation, and torque ripple. To bridge the research the challenges involved in design and operation of converter new interleaved converter structure has been proposed. The validation of proposed converter has been performed in environment of MATLAB/SIMULINK and the required characteristics of the converter and BLDC have been presented. To validate constructional and operational features of converter. The hardware has been developed for 1300 W and operational characteristics have been presented.

摘要

可再生能源(RES)在发电系统中的整合逐渐增加,这与满足全球最大电力需求相关。在可再生能源中,燃料电池用于能量存储系统。电压水平的增减可根据应用由不同类型的转换器控制。基于此,研究人员引入了不同类型的转换器,如用于升压应用以驱动电机运行的交错式转换器。但这些转换器存在元件数量多、开关损耗大、调速效率低和转矩脉动等问题。为弥合这一研究差距,提出了新型交错式转换器结构及其在设计和运行中面临的挑战。所提出的转换器已在MATLAB/SIMULINK环境中进行了验证,并展示了该转换器和无刷直流电机所需的特性。为验证转换器的结构和运行特性,已开发了1300W的硬件并展示了其运行特性。

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