7.5 A TCXO-less 100Hz-minimum-bandwidth transceiver for ultra-narrow-band sub-GHz IoT cellular networks

2017 IEEE International Solid-State Circuits Conference (ISSCC) Pub Date : 2017-02-01 DOI:10.1109/ISSCC.2017.7870297

D. Lachartre, F. Dehmas, C. Bernier, C. Fourtet, L. Ouvry, F. Lepin, E. Mercier, S. Hamard, Lionel Zirphile, S. Thuries, F. Chaix

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引用次数: 19

Abstract

Ultra-narrow-band (UNB) signaling is an enabling technology for low-power wide-area (LPWA) networks for the “Internet-of-Things”. Indeed, UNB signaling, based on spectrally efficient modulations such as DBPSK, simultaneously optimizes network capacity while maximizing the communication link budget. However, UNB signaling poses many technical challenges. In the receiver, carrier frequency offsets (CFO) can shift the desired signal from the expected channel. In the transmitter, the difficulty resides in generating the modulated signal with the required spectral purity. This work presents an 850-to-920 MHz RF transceiver dedicated to UNB communication systems employing the DBPSK/GFSK modulations. The receiver is resistant to CFO offsets and drifts of ±75Hz (i.e. 150% of the 100Hz channel) and 35Hz/s, respectively, with only 1dB sensitivity loss, thus allowing the circuit to function without a TCXO. In DBPSK 100b/s transmission mode, an error vector magnitude (EVM) better than 5% is measured for output powers up to 10dBm.

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7.5用于超窄带sub-GHz物联网蜂窝网络的txo -less 100hz最小带宽收发器

超窄带(UNB)信令是一种用于“物联网”的低功耗广域网(LPWA)的使能技术。事实上，基于频谱效率调制(如DBPSK)的UNB信令在最大化通信链路预算的同时优化了网络容量。然而，UNB信令带来了许多技术挑战。在接收机中，载波频率偏移(CFO)可以将期望的信号从期望的信道中移开。在发射机中，难点在于产生具有所需频谱纯度的调制信号。这项工作提出了一种850至920 MHz射频收发器，专用于采用DBPSK/GFSK调制的UNB通信系统。接收器可分别抵抗±75Hz(即100Hz通道的150%)和35Hz/s的CFO偏移和漂移，灵敏度损失仅为1dB，因此允许电路在没有TCXO的情况下工作。在DBPSK 100b/s传输模式下，当输出功率达到10dBm时，测量到的误差矢量幅度(EVM)优于5%。

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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2017 IEEE International Solid-State Circuits Conference (ISSCC)

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