单相双向降压变换器的HCC PWM控制在任何功率因数下都符合IEEE 519标准

A. N. Arvindan, V. Sharma
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引用次数: 1

摘要

本文介绍了采用功率MOSFET嵌入式两象限开关(2QSWs)的双向降压型改进的电能质量AC-DC转换器(IPQC)在接近正弦线电流的情况下的统一、滞后和领先的功率因数工作。IPQC本身的拓扑结构能够提供可变的双向直流链路电压和不可逆电流,即两象限运行,然而,应用滞回带电流控制(HCC)脉宽调制(PWM)技术,通过适当修改2qsw的开关模式,使变换器在任何象限运行,在实用程序接口处具有符合IEEE 519规定的谐波剖面。通过对变换器单相拓扑结构的仿真,对IPQC的控制策略进行了评价。结果证实,该技术在总谐波失真(THD)方面符合IEEE 519标准,并分别给出了整流和反转模式下的统一、领先和滞后功率因数操作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
HCC PWM Control of the Single-Phase Bi-Directional Buck Converter giving IEEE 519 Compliance at any Power Factor
This paper presents unity, lagging and leading power factor operations, with near sinusoidal line currents, of the bi-directional buck type improved power quality AC-DC converter (IPQC) that employs power MOSFET embedded two-quadrant switches (2QSWs). The topology of the IPQC itself is capable of providing variable bi-directional DC link voltage and non-reversible current i.e. two quadrant operation, however, application of the hysteresis-band current control (HCC) pulse width modulation (PWM) technique renders operation of the converter in either quadrant, with a harmonic profile at the utility interface conforming to the IEEE 519 stipulations, by appropriately modifying the switching pattern of the 2QSWs. The control strategy is evaluated for the IPQC by simulations implemented in the single-phase topology of the converter. Results confirm that the technique confers IEEE 519 compliance on the converter with regard to the Total Harmonic Distortion (THD), and, are presented for unity, and, leading and lagging power factor operations in the rectification and inversion modes respectively.
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