Comparative analysis of the selective resonant LCL and LCL plus trap filters

2014 International Conference on Optimization of Electrical and Electronic Equipment (OPTIM) Pub Date : 2014-05-22 DOI:10.1109/OPTIM.2014.6850949

R. Beres, Xiongfei Wang, F. Blaabjerg, C. Bak, Marco Liserre

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引用次数: 7

Abstract

In this paper two promising LCL based filter topologies are evaluated against the well-known LCL with a damping resistor. The filters are designed for high power applications where the frequency modulation index is relatively low. The first topology is the selective resonant LCL filter which aim is to minimize the damping losses by bypassing the resistor at the fundamental and switching frequencies while preserving high attenuation at higher frequencies. A new design procedure is proposed for the selective resonant LCL filter. The presence of multi-tuned traps in the second topology aims to decrease the total size of the filter reactive elements while meeting current harmonic standards. It is found that selective resonant LCL filter provide much lower damping losses compared to the LCL filter with simple resistor topology. Additionally, for the trap topology a minimum switching frequency is determined which ensure that reduction in size of the filter is possible. The theoretical analysis is demonstrated by frequency analysis and time domain simulations.

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选择性谐振LCL与LCL +陷阱滤波器的比较分析

本文对两种有前途的基于LCL的滤波器拓扑进行了评估，并与众所周知的带阻尼电阻的LCL进行了比较。该滤波器专为调制频率指数相对较低的高功率应用而设计。第一种拓扑是选择性谐振LCL滤波器，其目的是通过绕过基频和开关频率的电阻来最小化阻尼损失，同时在较高频率下保持高衰减。提出了一种新的选择性谐振LCL滤波器的设计方法。在第二种拓扑结构中，多调谐陷阱的存在旨在减少滤波器无功元件的总尺寸，同时满足当前的谐波标准。结果表明，与具有简单电阻拓扑结构的LCL滤波器相比，选择性谐振LCL滤波器提供了更低的阻尼损耗。此外，对于陷阱拓扑，确定了最小开关频率，以确保滤波器尺寸的减小是可能的。通过频率分析和时域仿真验证了理论分析的正确性。

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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2014 International Conference on Optimization of Electrical and Electronic Equipment (OPTIM)

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