高效的IEEE 802.15.4 ZigBee标准硬件设计，用于物联网应用

2017 International Conference on Signals and Systems (ICSigSys) Pub Date : 2017-05-16 DOI:10.1109/ICSIGSYS.2017.7967053

Vishal Deep, Tarek A. Elarabi

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引用次数: 14

摘要

过去几年来，工业对物联网通信的低数据速率和低功耗网络协议的需求不断增长，导致了ZigBee技术的发展。由于VLSI技术的进步，开发更节能、更精确、更小的数字ZigBee发射器设计已经成为可能，但仍具有挑战性。本文介绍了2.4 ghz频段数字ZigBee发射机的数字设计和FPGA PoC实现。利用Verilog硬件描述语言对变送器的硬件设计进行了描述，并利用Xilinx Vivado 2016.2对样机进行了实现。本文演示了高效节能的数字ZigBee发射机的四个组成部分的设计;即循环冗余检查，位-符号块，符号-芯片块，和偏移正交相移键控调制器。仿真波形验证了发射器的功能及其低功耗和低数据速率对物联网应用的适用性。

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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Efficient IEEE 802.15.4 ZigBee standard hardware design for IoT applications

The increasing industrial demand for low data-rate and low power networking protocols for IoT communications from past several years led to the development of ZigBee technology. As a result of advancement in VLSI technologies, development of more power efficient, accurate, and small digital ZigBee transmitter design has become achievable but yet challenging. This paper presents digital design and FPGA PoC implementation for the 2.4 GHz-band digital ZigBee transmitter. The proposed hardware design of the transmitter described by utilizing Verilog Hardware Description Language and the prototype implementation is done by employing Xilinx Vivado 2016.2. The paper demonstrates the design of the four building blocks of an energy efficient digital ZigBee transmitter; i.e. cyclic redundancy check, bit-to-symbol block, symbol-to-chip block, and offset quadrature phase shift keying Modulator. Simulation waveform verifies functionality of the transmitter and its low power and low data-rate suitability for Internet of Things' applications.

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2017 International Conference on Signals and Systems (ICSigSys)

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