Controlled Diode Bridge Clamped Three-Level Inverter Based on Quasi-Switched Boost Network

Duc-Tri Do, Minh‐Khai Nguyen, Thanh-Hai Quach, Duy-Thao Nguyen
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引用次数: 1

Abstract

In this paper, a controlled diode bridge clamped three-level inverter topology based on quasi-switched boost network (CDBC-qSBI) is presented. The proposed inverter not only inherits the advantages of traditional qSBIs but also it has the unique features: use of less number of high power passive reactive elements in the intermediate network as well as isolated DC power supply which increases the system size. On the other hand, it is able to provide both buck and boost voltages and produces a required three-phase three-level AC output voltage in a single-stage conversion. The proposed topology has continuous input current and controlled diode bridge clamped three-level inverter to avoid the reverse recovery problem. Circuit analysis and simulation results of the proposed three-level CDBC-qSBI are presented. A 600-W prototype based on a TMS320F28335 digital signal processor is built to verify the operating principle of the three-level CDBC-qSBI.
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基于准开关升压网络的可控二极管桥箝位三电平逆变器
提出了一种基于准开关升压网络(CDBC-qSBI)的可控二极管桥箝位三电平逆变器拓扑结构。该逆变器不仅继承了传统qsbi的优点,而且具有在中间网络中使用较少的大功率无源无功元件和隔离直流电源的特点,增加了系统规模。另一方面,它能够提供降压和升压电压,并在单级转换中产生所需的三相三电平交流输出电压。该拓扑具有连续输入电流和可控二极管桥箝位三电平逆变器,避免了反向恢复问题。给出了三电平CDBC-qSBI的电路分析和仿真结果。为验证三电平CDBC-qSBI的工作原理,基于TMS320F28335数字信号处理器构建了600 w样机。
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