Performance and implementation of a multi-rate IR-UWB baseband transceiver for IEEE802.15.4a

2013 IEEE International Conference on Ultra-Wideband (ICUWB) Pub Date : 2013-11-14 DOI:10.1109/ICUWB.2013.6663854

S. Olonbayar, D. Kreiser, R. Kraemer

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引用次数: 4

Abstract

Design, simulation, implementation and performance of IR-UWB baseband conforming to IEEE802.15.4a are discussed. The baseband can support various data rates such as 850 Kb/s, 6.81 Mb/s and 27.24 Mb/s. The design and parameter selection were considered carefully taking into account all possible imperfections that IR-UWB high frequency signal can experience. Energy detection receiver employing a comparator clocked at 499.2 MHz was adopted for the digitisation. Using I and Q path both positive and negative pulses were detected with a high reliability leading to a very good synchronisation performance. Simulation results confirm that the synchronisation is very robust being always correct for office NLOS environment and a large clock deviation between transmitter and receiver. The algorithm presented in this paper was implemented with discrete components, FPGA and signal generators. Experimental results show a good agreement with the simulation for all the data rates and the implemented baseband offers around six meter communication range tested along with a high frequency frontend from discrete components.

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IEEE802.15.4a多速率IR-UWB基带收发器的性能和实现

讨论了符合IEEE802.15.4a标准的IR-UWB基带的设计、仿真、实现和性能。基带可以支持850 Kb/s、6.81 Mb/s和27.24 Mb/s等多种数据速率。考虑到超宽带高频信号可能出现的所有缺陷，设计和参数选择都经过了仔细的考虑。采用频率为499.2 MHz的比较器的能量检测接收机进行数字化。使用I和Q路径，正脉冲和负脉冲都可以高可靠性地检测到，从而实现非常好的同步性能。仿真结果表明，该同步方法具有较强的鲁棒性，在办公NLOS环境和收发端时钟偏差较大的情况下始终是正确的。该算法采用离散元件、FPGA和信号发生器实现。实验结果表明，在所有数据速率下与仿真结果都很好地吻合，所实现的基带提供了大约6米的通信范围，以及来自离散元件的高频前端。

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 International Conference on Ultra-Wideband (ICUWB)

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