A novel single phase AC-AC converter with power factor control

S. Kitcharoenwat, M. Konghirun, A. Sangswang
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引用次数: 5

Abstract

This paper presents a novel single-phase ac-ac converter topology that is capable of creating voltage output to buck or boost mode. The structure of topology uses minimal switches controlled with the two-section overlap in each cycle of the ac input. The proposed topology is simple, low-cost, and contains minimum number of device. The control strategy can regulate a wide output voltage range with low harmonic distortion and improve the power factor. The closed-loop control is divided into two parts. The first part is the voltage control of dual dc-link capacitors, and the second part controls the ac output voltage. In the part of voltage control at the dc-link capacitors, the switches operate in the boost mode. The ac input current is controlled by PID control with the aim for power factor correction. The output voltage is also regulated by the PID control where the sinusoidal pulse-width modulation (sPWM) technique is chosen. The simulation results illustrate the regulated output ac voltage control, the control of the charging dual dc-link voltage capacitors, the response of the input voltage change and the response of the load change.
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一种具有功率因数控制的新型单相交流变换器
本文提出了一种新颖的单相ac-ac转换器拓扑结构,它能够产生降压或升压模式的电压输出。拓扑结构使用最小的开关,在交流输入的每个周期中由两段重叠控制。该拓扑结构简单、成本低、设备数量少。该控制策略可以在较宽的输出电压范围内调节低谐波失真,提高功率因数。闭环控制分为两部分。第一部分是双直流电容的电压控制,第二部分是交流输出电压的控制。在直流电容电压控制部分,开关工作在升压模式。交流输入电流由PID控制,目的是校正功率因数。输出电压由PID控制调节,采用正弦脉宽调制(sPWM)技术。仿真结果说明了交流稳压输出控制、充电双直流电压电容控制、输入电压变化的响应和负载变化的响应。
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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