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JSSC 2023第8期RF & Wireless28nmPower Amplifier

Design of a 1056-Gbs 64-QAM Polar Transmitter at 60 GHz in 28-nm CMOS Johan Nguy

设计了一款60 GHz 64-QAM极坐标发射机,采用28nm CMOS工艺,实现高效无线通信。
28nm CMOS, 64 GHz, 10.56-Gb/s, -27.8-dB EVM, 25.9% peak drain efficiency
毫米波极坐标发射机RF-DAC64-QAM能效
创新点1:基于RF-DAC的极坐标发射机架构,采用7位RF-DAC实现高效幅度调制(AM),结合数字功放(DPA)和主动移相器(PS),在60 GHz毫米波频段实现12.6 dBm饱和输出功率和25.9%峰值效率,显著提升传统A/AB类功放架构的能效。
创新点2:创新的开关方案通过禁用单元细胞大幅减少信号泄漏,提升输出信号质量,支持高阶调制(如64-QAM),实测误差向量幅度(EVM)达-27.8 dB,满足严苛通信标准要求。
创新点3:系统集成创新,通过片上存储器存储所有幅度和相位样本,结合IQ混合器实现相位调制(PM),在28nm CMOS工艺下实现10.56 Gbps传输速率,核心效率8.5%,系统效率3.9%。
创新点4:电路级优化,采用双7位可变增益放大器(VGA)的主动移相器结构,在64 GHz工作频率下实现21.5 dB功率增益,同时保持低功耗(0.9V供电,159mA电流)。
Abstract
Improving the energy efficiency of wireless commu- nication transmitters is an increasingly important target now that millimeter-wave (mm-wave) frequencies are being used. To improve the efficiency compared with classical transmit architectures that use a class A/AB power amplifier (PA), we propose here a polar transmitter that operates around 60 GHz. This transmitter is based on a radio frequency digital- to-analog converter (RF-DAC). This RF-DAC uses a switching scheme that greatly reduces sig