用于单相 DC-AC 转换器的无电容固态电源滤波器

Haitham Kanakri;Euzeli C. Dos Santos
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摘要

由于电力电子器件的高频工作特性,转换器依赖于无源滤波这一关键元件。传统的滤波方法包括双电感器-电容器 (LC) 单元或电感器-电容器-电感器 (LCL) T 型电路。然而,电容器容易受到磨损机制和故障模式的影响。不过,由于需要监控和定期更换,此类系统的拥有成本也随之增加。利用有源输出功率滤波器可以减小 LC 滤波器和电解直流链路电容器的尺寸,尽管电容器仍然是系统不可或缺的一部分。本文介绍了用于单相直流-交流转换器的无电容固态功率滤波器(SSPF)。所提出的配置能够在不依赖电容器的情况下产生正弦交流电压。拟议的滤波器由一个平面变压器和一个高频工作的 H 桥转换器组成,可注入电压谐波以获得正弦输出电压。其中包含平面变压器的设计参数,并说明了磁化和漏感对 SSPF 运行的影响。在模拟和实验结果的支持下,对单相系统的设计实例进行了理论分析。在输出电压中观察到的总谐波失真远远低于 IEEE 519 标准。在稳态和动态条件下对系统运行进行了实验测试。与现有技术的比较表明,所提出的拓扑结构减少了用于滤波的无源元件。
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Capacitorless Solid-State Power Filter for Single-Phase DC-AC Converters
Converters rely on passive filtering as a crucial element due to the high-frequency operational characteristics of power electronics. Traditional filtering methods involve a dual inductor-capacitor (LC) cell or an inductor-capacitor-inductor (LCL) T-circuit. However, capacitors are susceptible to wear-out mechanisms and failure modes. Nevertheless, the necessity for monitoring and regular replacement adds to an elevated cost of ownership for such systems. The utilization of an active output power filter can be used to diminish the dimensions of the LC filter and the electrolytic dc-link capacitor, even though the inclusion of capacitors remains an indispensable part of the system. This paper introduces capacitorless solid-state power filter (SSPF) for single-phase dc-ac converters. The proposed configuration is capable of generating a sinusoidal ac voltage without relying on capacitors. The proposed filter, composed of a planar transformer and an H-bridge converter operating at high frequency, injects voltage harmonics to attain a sinusoidal output voltage. The design parameters of the planar transformer are incorporated, and the impact of magnetizing and leakage inductances on the operation of the SSPF is illustrated. Theoretical analysis, supported by simulation and experimental results, are provided for a design example for a single-phase system. The total harmonic distortion observed in the output voltage is well below the IEEE 519 standard. The system operation is experimentally tested under both steady-state and dynamic conditions. A comparison with existing technology is presented, demonstrating that the proposed topology reduces the passive components used for filtering.
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