← 返回 JSSC 论文列表JSSC 2025第10期RF & Wireless28nmTransceiver
An 8671875-GHz RF Transceiver for 578125-Gbs Plastic Waveguide Links With a CDR-
一款86.71875GHz RF收发器,采用CDR辅助载波同步技术,实现57.8125Gb/s PAM-4数据传输。
28nm CMOS, 57.8125Gb/s, 1.5m, 3.5pJ/b/m
RF收发器载波同步PAM-4波导链路CDR
▸创新点1:CDR辅助载波同步环路(方法创新) - 通过基带时钟数据恢复(CDR)技术实现载波同步,替代传统高功耗射频电路,显著降低系统功耗和面积占用,实测功耗仅190.1mW(Tx)和117mW(Rx)。
▸创新点2:第三谐波载波频率选择(系统架构创新) - 采用86.71875GHz作为载波频率,其为基础频段零频点28.90625GHz的三次谐波,优化了谐波抑制和频谱效率,实现57.8125Gb/s PAM-4数据传输。
▸创新点3:基带CDR替代RF电路(电路创新) - 利用数字密集型基带CDR技术完成同步,相比传统模拟RF同步方案节省35%以上面积(芯片总面积1.98×0.95mm²),时序裕度提升38%。
▸创新点4:能效优化设计(系统级创新) - 通过联合优化载波生成与数据调制链路,实现3.5pJ/b/m的能效指标,在1.5米波导信道中保持高吞吐量同时降低传输损耗。
Abstract
This article presents an 86.71875-GHz RF
transceiver IC featuring a fully integrated clock and data
recovery (CDR)-assisted carrier synchronization loop (CSL) for
waveguide links. The carrier frequency of 86.71875 GHz is chosen
to be the third harmonic of the baseband null frequency of
28.90625 GHz, and the carrier synchronization is achieved using a
baseband CDR instead of power- and area-intensive RF circuits.
The IC, fabricated in 28-nm CMOS, demonstrates 57.8125-Gb/s
pulse-amplitude modulati