A zero current switching non isolated bidirectional converter for interfacing energy storage devices with microgrids

2018 International Conference on Power, Instrumentation, Control and Computing (PICC) Pub Date : 1900-01-01 DOI:10.1109/PICC.2018.8384789

Shashank Kurm, V. Agarwal

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Abstract

Energy storage devices (ESD) like batteries and supercapacitors are necessary for standalone microgrids. These ESDs are interfaced to the DC grid using bidirectional DC-DC converters. In an urban environment, where space is critical, a converter having small footprint is preferred. This necessitates a high switching frequency operation, which, in turn, increases the switching losses. To operate the converter at a high switching frequency while having low switching loss, soft switching is desired. For IGBT based converters, Zero Current Switching is the preferred mode for soft switching. In this paper, a zero current switching non isolated bidirectional converter employing two auxiliary switches for soft switching of the two main devices that form the power circuit of the bidirectional buck-boost converter has been proposed. The current stress on the main switches is only slightly increased as compared to a conventional bidirectional converter buck-boost converter. Simulation results are presented for the converter connecting two voltage sources while transferring power in either direction.

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一种用于储能装置与微电网接口的零电流开关非隔离双向变换器

像电池和超级电容器这样的能量存储设备(ESD)对于独立的微电网是必要的。这些esd通过双向DC-DC转换器连接到直流电网。在城市环境中，空间是至关重要的，占地面积小的转换器是首选。这就需要一个高开关频率的操作，这反过来又增加了开关损耗。为了使变换器在高开关频率下工作，同时具有低开关损耗，需要软开关。对于基于IGBT的变换器，零电流开关是软开关的首选模式。本文提出了一种零电流开关非隔离双向变换器，采用两个辅助开关对构成双向降压-升压变换器电源电路的两个主器件进行软开关。与传统的双向变换器降压升压变换器相比，主开关上的电流应力仅略有增加。给出了连接两个电压源的变换器在任意方向上传输功率的仿真结果。

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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2018 International Conference on Power, Instrumentation, Control and Computing (PICC)

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