A dc to dc multilevel modular capacitor clamped converter with electrical grounding isolation and bidirectional power flow for a dc microgrid application

2012 9th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology Pub Date : 2012-05-16 DOI:10.1109/ECTICON.2012.6254169

P. Sintupatsuk, S. Khomfoi, P. Paisuwanna

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引用次数: 10

Abstract

A dc to dc multilevel modular capacitor clamped converter (M²C³) with electrical grounding isolation and bidirectional power flow for a dc microgrid application is proposed in this paper. The principle of this particular M²C³ is based upon volt-sec balance of capacitors connected as a modular cell in the circuit so that the M²C³ can be similarly operated as a dc transformer. The M²C³ can be interfaced between a battery and a dc grid. Moreover, two M²C³ can be interfaced using a high frequency transformer in order to achieve grounding isolation and exchange energy between M²C³. The transferred energy would provide the fault tolerance ability in the case of a M²C³ is malfunctioned. Both grounding isolation and bidirectional power flow are one of key functions for dc microgrid applications. The simulation study is performed using PSIM 9.0. Also, the 3-kw prototype is developed to investigate the notion for a dc microgrid application.

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一种直流到直流多电平模块化电容箝位转换器，具有电接地隔离和双向潮流，适用于直流微电网应用

提出了一种适用于直流微电网的直流多电平模块化电容箝位变换器(M2C3)，该变换器具有接地隔离和双向潮流功能。这种特殊的M2C3的原理是基于连接在电路中作为模块化单元的电容器的伏秒平衡，因此M2C3可以类似地作为直流变压器运行。M2C3可以连接电池和直流电网。另外，两个M2C3可以通过高频变压器连接，实现M2C3之间的接地隔离和能量交换。在M2C3发生故障的情况下，传递的能量将提供容错能力。接地隔离和双向潮流是直流微电网应用的关键功能之一。仿真研究采用PSIM 9.0进行。此外，开发3千瓦的原型是为了研究直流微电网应用的概念。

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2012 9th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology

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