A novel control strategy for the boost DC - AC inverter

2006 India International Conference on Power Electronics Pub Date : 2006-12-01 DOI:10.1109/IICPE.2006.4685394

B. Kalaivani, V. Kumar Chinnaiyan, J. Jerome

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引用次数: 17

Abstract

Boost DC-AC inverter naturally generates in a single stage an AC voltage whose peak value can be lower or greater than the DC input voltage. The main drawback of this structure deals with its control. Boost inverter consists of Boost DC-DC converters that have to be controlled in a variable-operation point condition. The sliding mode control has been proposed as an option. However, it does not directly control the inductance averaged-current. This paper proposes a control strategy for the Boost inverter in which each Boost is controlled by means of a double-loop regulation scheme that consists of a new inductor current control inner loop and an also new output voltage control outer loop. These loops include compensations in order to cope with the Boost variable operation point condition and to achieve a high robustness to both input voltage and output current disturbances. As shown by simulation results, the proposed control strategy achieves a very high reliable performance, even in difficult transient situations such as nonlinear loads, abrupt load changes, short circuits, etc., which sliding mode control cannot cope with.

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一种新的升压直流-交流逆变器控制策略

升压直流-交流逆变器在单级自然产生的交流电压的峰值可以低于或高于直流输入电压。这种结构的主要缺点在于它的控制。升压逆变器由升压DC-DC变换器组成，必须在可变工作点条件下进行控制。滑模控制已被提出作为一种选择。但是，它不能直接控制电感平均电流。本文提出了一种Boost逆变器的控制策略，其中每个Boost由一个新的电感电流控制内环和一个新的输出电压控制外环组成的双环调节方案来控制。这些回路包括补偿，以应对Boost可变工作点条件，并实现对输入电压和输出电流干扰的高鲁棒性。仿真结果表明，即使在非线性负载、负载突变、短路等滑模控制无法应对的困难暂态情况下，所提出的控制策略也具有很高的可靠性能。

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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2006 India International Conference on Power Electronics

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