Floating-point adaptive filter architectures for the cancelling of harmonics power line interference

2015 IEEE International Conference on Electronics, Circuits, and Systems (ICECS) Pub Date : 2015-12-01 DOI:10.1109/ICECS.2015.7440390

Vagner Guidotti, E. Costa, S. Almeida, M. Fonseca

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引用次数: 4

Abstract

This work presents floating-point dedicated architectures of LMS (Least Mean Square) and NLMS (Normalized Least Mean Square) adaptive filtering algorithms for the harmonics power line interference cancelling. Among the various algorithms of adaptation, the (LMS is surely the most popular, mainly due to its low computational cost, robustness and tracking ability. On the other hand, the normalized version of the LMS algorithm, named NLMS presents as main characteristics the increase of speed of adaptation and small sensitivity to the power reference signal. This work explores these tradeoffs by developing floating-point dedicated architectures for both algorithms, and applying them to the harmonics cancelling structure. The developed architectures were described in hardware description language, and synthesized to 45 nm Nangate Open Cell using Cadence RTL Compiler. The main results show that the interference canceller with NLMS filters presents faster convergence at the cost of an increased area and power consumption as compared with the structure with LMS filters.

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用于消除谐波电力线干扰的浮点自适应滤波器结构

本文提出了用于谐波电力线干扰消除的LMS(最小均方)和NLMS(归一化最小均方)自适应滤波算法的浮点专用架构。在各种自适应算法中，LMS无疑是最受欢迎的，这主要是因为它具有较低的计算成本、鲁棒性和跟踪能力。另一方面，LMS算法的归一化版本(NLMS)的主要特点是自适应速度加快，对功率参考信号的灵敏度小。本工作通过为这两种算法开发浮点专用架构并将其应用于谐波消除结构来探索这些权衡。采用硬件描述语言对所开发的体系结构进行描述，并使用Cadence RTL Compiler将其合成为45 nm的Nangate Open Cell。主要结果表明，与LMS滤波器相比，NLMS滤波器具有更快的收敛速度，但代价是面积和功耗增加。

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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来源期刊

2015 IEEE International Conference on Electronics, Circuits, and Systems (ICECS)

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