Bipolar power converter and control of switched reluctance generator system for renewable energy storage

IF 0.7 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Microelectronics International Pub Date : 2023-05-18 DOI:10.1108/mi-07-2022-0135

Hao Chen, Fan Yang, M. Aguirre, Muhammad Asghar Saqib, G. Demidova, A. Anuchin, M. Orabi, R. Palka, L. Sakhno, N. Korovkin

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Abstract

Purpose Because of the shortage of energy, the development of green and reliable energy is particularly important. As a green and clean energy, wind power is widely used. As the core component of wind power generation, it is particularly important to choose generators with high reliability. Switched reluctance machine is widely used as generators because of its strong fault tolerance and high reliability. Therefore, this paper aims to propose a power converter and its control strategy to improve the efficiency of switched reluctance generators. Design/methodology/approach In this paper, a full-bridge power converter (FBPC) instead of the asymmetric half-bridge power converter (AHBPC) is adopted to drive the switched reluctance generator (SRG) system. Compare the FBPC with the AHBPC, the FBPC has several advantages including low cost and modularization, and operation process of SRG winding current direction is variable. Findings The results show that the SRG system can keep smooth operation by the FBPC with relatively high efficiency. Originality/value The FBPC is suitable to drive the SRG system. Meanwhile, this paper introduces two excitation modes of the FBPC as three-phase three-beat mode and six-phase six-beat mode. When the six-phase six-beat control strategy is adopted, the dead band time of the converter can be avoided. At the same time, the SRG has higher efficiency.

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双极功率变换器与可再生能源储能开关磁阻发电系统的控制

目的由于能源短缺，开发绿色可靠的能源尤为重要。风电作为一种绿色清洁能源，得到了广泛的应用。作为风力发电的核心部件，选择可靠性高的发电机尤为重要。开关磁阻电机具有容错能力强、可靠性高等优点，被广泛应用于发电机中。因此，本文旨在提出一种功率变换器及其控制策略，以提高开关磁阻发电机的效率。设计/方法/方法本文采用全桥功率变换器（FBPC）代替非对称半桥功率转换器（AHBPC）来驱动开关磁阻发电机（SRG）系统。与AHBPC相比，FBPC具有成本低、模块化等优点，并且SRG绕组电流方向的操作过程是可变的。结果表明，FBPC能使SRG系统保持平稳运行，且效率较高。独创性/价值FBPC适用于驱动SRG系统。同时介绍了FBPC的两种励磁方式：三相三拍和六相六拍。当采用六相六拍控制策略时，可以避免转换器的死区时间。同时，SRG具有更高的效率。

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

Microelectronics International 工程技术-材料科学：综合

CiteScore

1.90

自引率

9.10%

发文量

审稿时长

>12 weeks

期刊介绍： Microelectronics International provides an authoritative, international and independent forum for the critical evaluation and dissemination of research and development, applications, processes and current practices relating to advanced packaging, micro-circuit engineering, interconnection, semiconductor technology and systems engineering. It represents a current, comprehensive and practical information tool. The Editor, Dr John Atkinson, welcomes contributions to the journal including technical papers, research papers, case studies and review papers for publication. Please view the Author Guidelines for further details. Microelectronics International comprises a multi-disciplinary study of the key technologies and related issues associated with the design, manufacture, assembly and various applications of miniaturized electronic devices and advanced packages. Among the broad range of topics covered are: • Advanced packaging • Ceramics • Chip attachment • Chip on board (COB) • Chip scale packaging • Flexible substrates • MEMS • Micro-circuit technology • Microelectronic materials • Multichip modules (MCMs) • Organic/polymer electronics • Printed electronics • Semiconductor technology • Solid state sensors • Thermal management • Thick/thin film technology • Wafer scale processing.