DC-port voltage balance strategy for three-phase cascaded H-bridge rectifier based on logic combination modulation

IF 0.7 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Microelectronics International Pub Date : 2023-02-28 DOI:10.1108/mi-07-2022-0118

Mingxiao Dai, Xu Peng, Xiao Liang, Xinyu Zhu, Xiaohan Liu, Xijun Liu, Pengcheng Han, Chao Wu

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引用次数: 0

Abstract

Purpose The purpose of this paper is to propose a DC-port voltage balance strategy realizing it by logic combination modulation (LCM). This voltage balance strategy is brief and high efficient, which can be used in many power electronic devices adopting the cascaded H-bridge rectifier (CHBR) such as power electronic transformer (PET). Design/methodology/approach The CHBR is typically as a core component in the power electronic devices to implement the voltage or current conversion. The modulation method presented here is aiming to solve the voltage imbalance problem occurred in the CHBR with more stable work station and higher reliability in ordinary operating conditions. In particular, by changing the switch states smoothly and quickly, the DC-port voltage can be controlled as the ideal value even one of the modules in CHBR is facing the load-removed problem. Findings By using the voltage balance strategy of LCM, the problem of voltage imbalance occurring in three-phase cascaded rectifiers has been solved properly. With the lower modulation depth, the efficiency of the strategy is shown to be better and stronger. The strategy can work reliably and quickly no matter facing the problem as load-removed change or the ordinary operating conditions. Research limitations/implications The limitation of the proposed DC-port voltage balance strategy is calculated and proved, in a three-module CHBR, the LCM could balance the DC-port voltage while one module facing the load-removed situation under 0.83 modulation depth. Originality/value This paper provides a useful and particular voltage balance strategy which can be used in the topology of three-phase cascaded rectifier. The value of the strategy is that a brief and reliable voltage balance method in the power electronic devices can be achieved. What is more, facing the problem, such as load-removed, in outport, the strategy can response quickly with no switch jump and switch frequency rising.

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基于逻辑组合调制的三相级联h桥整流器直流端电压平衡策略

本文的目的是提出一种通过逻辑组合调制(LCM)实现的直流端口电压平衡策略。该电压平衡策略简单、高效，可用于许多采用级联h桥整流器(CHBR)的电力电子设备，如电力电子变压器(PET)。CHBR通常是电力电子器件中实现电压或电流转换的核心组件。本文提出的调制方法旨在解决CHBR在正常运行条件下出现的电压不平衡问题，使工作站更加稳定，可靠性更高。特别是，通过平稳、快速地改变开关状态，即使CHBR中有一个模块面临卸荷问题，也可以将直流端口电压控制在理想值。结果采用LCM的电压平衡策略，较好地解决了三相级联整流器电压不平衡的问题。在较低的调制深度下，该策略的效率更好、更强。该策略无论面对卸荷变化问题，还是面对普通工况，都能可靠、快速地工作。计算并证明了所提出的直流端口电压平衡策略的局限性，在三模块CHBR中，当调制深度为0.83时，LCM可以平衡一个模块的直流端口电压。本文提供了一种实用而独特的电压平衡策略，可用于三相级联整流器的拓扑结构。该策略的价值在于为电力电子器件提供了一种简单可靠的电压平衡方法。此外，该策略在面对出港卸荷等问题时，能够快速响应，无开关跳变和开关频率上升。

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.