A 7.25-7.75GHz 5.9mW UWB Transceiver with -23.8dBm NBI Tolerance and 1.5cm Ranging Accuracy Using Uncertain IF and Pulse-Triggered Envelope/Energy Detection

2022 IEEE Custom Integrated Circuits Conference (CICC) Pub Date : 2022-04-01 DOI:10.1109/CICC53496.2022.9772857

Bowen Wang, Haixin Song, W. Rhee, Zhihua Wang

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引用次数: 1

Abstract

The ultra-wideband (UWB) has recently been recognized as a revived wireless technology for short-range communication and fine ranging [1]–[3]. Even though the coherent UWB receiver achieves good sensitivity and high immunity against the narrowband interference (NBI), it suffers from high power and complex design for receiver synchronization. With a simple architecture and intermittent operation, the noncoherent UWB receiver achieves high energy efficiency [3], but the performance is vulnerable to the NBI. Because of new wireless standards such as 5G NR and Wi-Fi 6, having good NBI tolerance at 5-6GHz range becomes critical for UWB transceiver systems. The NBI tolerance of only -45dBm at 6GHz is reported in a recent noncoherent transceiver [4]. In this paper, we propose a 7.25-7.75GHz UWB transceiver that achieves good NBI tolerance as well as fine ranging with following features. Firstly, the uncertain-IF architecture is employed for the UWB receiver for the first time to achieve an optimum performance between energy efficiency and NBI tolerance. Unlike the uncertain-IF wake-up receiver (WuRX) for narrowband wireless standards [5], the quality (Q) factor requirement and the design complexity for the RF filter or IF filter could be significantly relaxed. To have good image rejection, a high LO frequency of 9GHz is chosen for down conversion, so that the image frequency can be beyond 10GHz. Secondly, the transceiver employs the synchronized on-off keying (S-OOK) modulation to mitigate the baseband synchronization issue [6]. Based on the S-OOK modulation, a pulse-triggered envelope/energy detector (PT-EVED) is designed in the receiver not only to automatically define an optimum integration window for good sensitivity during the communication mode but also to provide a fine ranging resolution during the ranging mode. Thirdly, a ΔΣ time-to-digital converter (TDC) is employed to have a digital-intensive ranging demodulation with a 1b oversampled output.

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7.25-7.75GHz 5.9mW超宽带收发器，NBI容差-23.8dBm，测距精度1.5cm，采用不确定中频和脉冲触发包络/能量检测

超宽带(UWB)最近被认为是一种复兴的无线技术，用于近距离通信和精细测距[1]-[3]。相干超宽带接收机虽然具有良好的灵敏度和抗窄带干扰的能力，但存在接收机同步功率大、设计复杂等问题。非相干UWB接收机结构简单，运行时断时续，实现了高能效[3]，但性能容易受到NBI的影响。由于新的无线标准，如5G NR和Wi-Fi 6，在5-6GHz范围内具有良好的NBI容差对于UWB收发器系统至关重要。在最近的一种非相干收发器[4]中，6GHz的NBI容差仅为-45dBm。在本文中，我们提出了一种7.25-7.75GHz的UWB收发器，该收发器具有良好的NBI容限和良好的测距特性。首先，首次将不确定中频结构应用于UWB接收机，在能量效率和NBI容差之间实现最佳性能。与窄带无线标准[5]的不确定中频唤醒接收器(WuRX)不同，射频滤波器或中频滤波器的质量(Q)因子要求和设计复杂性可以显着放宽。为了具有良好的图像抑制效果，选择9GHz的高LO频率进行下变频，使图像频率可以超过10GHz。其次，收发器采用同步开关键控(S-OOK)调制来缓解基带同步问题[6]。基于S-OOK调制，在接收机中设计了脉冲触发包络/能量检测器(PT-EVED)，不仅可以在通信模式下自动定义最佳积分窗口以获得良好的灵敏度，还可以在测距模式下提供良好的测距分辨率。第三，采用ΔΣ时间-数字转换器(TDC)实现1b过采样输出的数字密集测距解调。

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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2022 IEEE Custom Integrated Circuits Conference (CICC)

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