Comparison of different digital front end structures at the OFDM receiver

2013 IEEE 17th International Symposium on Power Line Communications and Its Applications Pub Date : 2013-03-24 DOI:10.1109/ISPLC.2013.6525861

Gao Hongjian, G. Bumiller

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引用次数: 5

Abstract

It is common to have a large noise and/or a strong interference around the frequency band of a Power Line Communication (PLC) system due to the fact that the PLC channel is not designed for communication. If there are no efficient operations at the receiver to suppress this out-of-band noise and interference to some extent, the Signal-to-Noise Ratio (SNR) will decrease and system will suffer performance loss consequently. Normally, the effort of Analog Front End (AFE) on the suppression of out-of-band interference is finite and it is uneconomic to change the AFE structure to make a performance improvement. Therefore, an appropriate structure of Digital Front End (DFE) at the receiver is necessary to reduce the impact of out-of-band noise and interference furthermore. In this paper, three different kinds of DFE structure at the receiver are introduced: classic DFE, time domain Nyquist windowing and Equivalent Complex Baseband (ECB) approach. The performance of these DFE structures is compared, not only from the aspect of out-of-band suppression, but also from the system overhead they need.

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OFDM 接收机不同数字前端结构的比较

由于电力线通信（PLC）信道并非专为通信而设计，因此在电力线通信（PLC）系统的频段周围经常会出现较大的噪声和/或较强的干扰。如果接收器不能有效地在一定程度上抑制这些带外噪声和干扰，信噪比（SNR）就会下降，系统的性能也会随之下降。通常情况下，模拟前端（AFE）在抑制带外干扰方面所做的努力是有限的，改变 AFE 结构以提高性能是不经济的。因此，有必要在接收器上采用适当的数字前端（DFE）结构，以进一步降低带外噪声和干扰的影响。本文介绍了三种不同的接收器数字前端（DFE）结构：经典 DFE、时域奈奎斯特窗法和等效复杂基带（ECB）方法。不仅从带外抑制方面，而且从它们所需的系统开销方面，对这些 DFE 结构的性能进行了比较。

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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2013 IEEE 17th International Symposium on Power Line Communications and Its Applications

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