了解用于电力系统应用的逆变电路中有源和无源开关的导通状态

2011 4th International Conference on Power Electronics Systems and Applications Pub Date : 2011-06-08 DOI:10.1109/PESA.2011.5982967

B. Divakar, K. Cheng, D. Sutanto

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引用次数: 0

摘要

双向逆变电路在电力系统中有广泛的应用，如FACTS器件、储能系统和有源滤波器等。然而，许多电力工程专业的学生发现很难理解有源开关(晶体管，igbt)和无源开关(连接在有源开关上的反并联二极管)的导通状态。对他们来说，电力可以从低压交流系统流向高压直流系统，为储能系统充电，这似乎是一个谜。本文提出了一个简单的图表，直观地解释了如何确定逆变器的有源和无源开关的状态(导或不导)。该流程图帮助学生理解开关周期中电路拓扑结构的循环变化。流程图本质上是通用的，可用于任何类型的控制方法，如正弦脉宽调制和迟滞控制。本文还讨论了该图在电池储能系统中的应用。

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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Understanding the conducting states of active and passive switches in an inverter circuit used for power system applications

Bi-directional inverter circuits are commonly used in many applications in power systems, such as in FACTS devices, energy storage systems and active power filters. Many power engineering students however find it difficult to understand the conducting states of the active switches (transistors, IGBTs) and the passive switches (the anti-parallel diodes connected across the active switches). It seems a mystery to them that power can flow from a lower voltage ac system to a higher voltage dc system to charge the energy storage system. This paper proposes a simple chart that intuitively explains how to determine the states (either conducting or non-conducting) of the active and passive switches of an inverter. The flowchart helps students to understand the cyclic changes in the topology of the circuit in a switching cycle. The flowchart by nature is general and can be used for any type of control methods such as sinusoidal PWM and hysteresis control. The application of the use of this chart is also discussed for a battery energy storage system.

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2011 4th International Conference on Power Electronics Systems and Applications

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