Combining scheme of multiple differential filter outputs for direct conversion receiver

2016 IEEE 27th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC) Pub Date : 2016-12-21 DOI:10.1109/PIMRC.2016.7794979

Takaaki Kitano, Y. Sanada

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Abstract

In wireless communications for industrial automation, industrial equipments frequently communicate each other through the transmission of a small amount of data. For a random access system, a frame format that multiplexes a data signal to IEEE 802.11 short preamble sequence has been proposed to improve a spectrum efficiency. This frame format enables a receiver to realize timing synchronization, channel estimation, frequency offset compensation, and data transmission simultaneously within a preamble period. In receivers for wireless LAN communication systems, a direct conversion architecture has been widely employed because of its low production cost and low power consumption. However, this architecture suffers from a DC offset mainly caused by the leakage of a local oscillator (LO) signal. In order to eliminate the DC offset, a high-pass filter (HPF) is often inserted before an A/D convertor. When the gain of a low noise amplifier (LNA) changes in the presence of the DC offset, the level of the DC offset varies in the middle of the short preamble signal. With the time-varying DC offset, the received signal suffers from the long transient response of the HPF. In the use of the proposed frame format, the transient response causes severe deterioration on a bit error rate (BER) performance. In the previous research, a differential filter has been applied in a digital domain to eliminate the residual DC offset and estimate a frequency offset. In order to obtain better BER performance with time-varying DC offset elimination, the differential filter outputs with different delay values are summed together. It is shown that the set of differential filters with specific delay values can reduce the BER. The BER performance for two differential filter branches with the delays, dl = {4, 5}, improves the error floor by a half than that with the single branch only with the delay, dl = 4, when the number of the receive antennas is 3 on an Indoor Residential A channel model.

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直接转换接收机多差分滤波器输出组合方案

在工业自动化无线通信中，工业设备之间通过少量数据的传输进行频繁的通信。针对随机接入系统，提出了一种将数据信号复用到IEEE 802.11短前导序列的帧格式，以提高频谱效率。该帧格式使接收机能够在一个前置周期内同时实现定时同步、信道估计、频率偏移补偿和数据传输。在无线局域网通信系统的接收机中，直接转换结构因其生产成本低、功耗低而被广泛采用。然而，这种架构存在主要由本振(LO)信号泄漏引起的直流偏移。为了消除直流偏置，通常在a /D转换器之前插入高通滤波器(HPF)。当低噪声放大器(LNA)的增益在直流偏置存在的情况下发生变化时，直流偏置的电平在短前置信号的中间发生变化。在直流偏置时变的情况下，接收到的信号受到高频滤波器的长瞬态响应的影响。在使用所提出的帧格式时，瞬态响应会导致误码率(BER)性能的严重恶化。在以往的研究中，差分滤波器已经应用于数字域来消除残余的直流偏置和估计频率偏置。为了通过时变直流偏置消除获得更好的误码率性能，将不同延迟值的差分滤波器输出加在一起。结果表明，具有特定延迟值的差分滤波器组可以降低误码率。在室内住宅a信道模型中，当接收天线数为3时，两个具有延迟dl ={4,5}的差分滤波支路的误码性能比仅具有延迟dl = 4的单支路的误码性能提高了一半。

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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2016 IEEE 27th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC)

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