基于28nm CMOS片上天线的1.54 pJ/b 80gb /s d波段二维可扩展收发器阵列

IF 2.2 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

IEEE Solid-State Circuits Letters Pub Date : 2025-02-05 DOI:10.1109/LSSC.2025.3539228

Hesham Beshary;Yikuan Chen;Ethan Chou;Ali M. Niknejad

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引用次数: 0

摘要

这项工作代表了一种140 GHz宽带二维可扩展相控阵，采用28纳米体CMOS技术。该芯片集成了$2\ × 2$的收发元件与片上天线和$ $\ × 16$的LO倍增链，尺寸为$2.115\ × 2$ .115 mm2。所述元件形成射频波束形成器，同时在元件之间保持大约半波长的间距。集成天线利用衬底减薄和衬底模式抵消来提高阵列辐射效率。系统采用中频中心频率为25ghz的超外差收发器（TRX）架构。采用16-QAM调制方案实现了1.54 pJ/b和80 Gb/s的OTA传输速率。据作者所知，这项工作实现了最高的阵列级OTA数据速率，同时与其他d波段收发器阵列相比，将能量效率（pJ/b）提高了大约一个数量级。

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A 1.54 pJ/b 80 Gb/s D-Band 2-D Scalable Transceiver Array With On-Chip Antennas in 28-nm Bulk CMOS

This work represents a 140 GHz wideband 2-D scalable phased array in 28-nm bulk CMOS technology. The chip integrates

$2\times 2$

transceiving elements with on-chip antennas and a

$\times 16$

LO multiplication chain in

$2.115\times 2$

.115 mm2. The elements are forming an RF beamformer while keeping approximately half-wavelength spacing between the elements. The integrated antennas leverage substrate thinning and substrate mode cancellation to boost the array radiation efficiency. The system adopts a superheterodyne transceiver (TRX) architecture with 25 GHz IF center frequency. The proposed work achieves 1.54 pJ/b and 80 Gb/s over-the-air (OTA) using 16-QAM modulation scheme for the overall transmit-receive link. To the best of the authors’ knowledge, this work achieves the highest reported array-level OTA data rate while improving the energy efficiency (pJ/b) by approximately an order of magnitude compared to other D-band transceiver arrays.

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来源期刊

IEEE Solid-State Circuits Letters Engineering-Electrical and Electronic Engineering

CiteScore

4.30

自引率

3.70%

发文量