← 返回 JSSC 论文列表JSSC 2006第5期RF & Wireless90nm CMOS
A Digitally Controlled Oscillator System for SAW-Less Transmitters in Cellular H
提出一种用于无SAW蜂窝发射机的数字控制振荡器系统,适用于四频GSM收发机。
167 dBc/Hz @20MHz, 24.5%调谐范围, 12kHz步进
数字控制振荡器无SAW发射机GSM收发机RF DAC相位噪声
▸创新点1:动态分频器优化TX相位噪声(方法创新) - 采用动态分频器技术显著降低发射端相位噪声,满足GSM严格相位噪声要求,同时保持低功耗设计。
▸创新点2:RF DAC实现高线性振荡器增益(电路创新) - 通过MIM电容阵列和nMOS晶体管阵列组合的RF DAC结构,实现高线性且对工艺变化不敏感的振荡器增益,步进精度达12 kHz。
▸创新点3:ΣΔ调制实现高频分辨率(系统创新) - 结合ΣΔ调制技术,在保持极低相位噪声(167 dBc/Hz @20MHz)的同时实现亚赫兹级频率分辨率,支持24.5%的宽调谐范围。
▸创新点4:低压低功耗正交相位生成(电路创新) - 动态分频器与源极耦合逻辑分频器协同工作,在1.6-2.0GHz频段以低电压(90nm CMOS)生成严格匹配的四路正交输出相位。
Abstract
A complete digitally controlled oscillator (DCO)
system for mobile phones is presented with a comprehensive
study. The DCO is part of a single-chip fully compliant quad-band
GSM transceiver realized in a 90-nm digital CMOS process. By
operating the DCO at a 4
GSM low-band frequency followed by
frequency dividers, the requirement of on-chip inductor
and
the amount of gate oxide stress are relaxed. It was found that a
dynamic divider is needed for stringent TX output phase noise
while a source-co