← 返回 JSSC 论文列表JSSC 2006第5期Clocking & PLLs0.25μm
Self-Calibrated Quadrature Generator for WLAN Multistandard Frequency Synthesize
提出一种自校准正交信号发生器,用于WLAN多标准频率合成器。
0.25μm SiGe BiCMOS, 2.5V, 5mA
自校准正交信号发生器WLAN频率合成器SiGe BiCMOS
▸创新点1:自校准正交信号发生器采用新型顺序校准方案,显著提升5 GHz输出的相位精度,最大相位误差控制在2度以内,解决了传统方案在高频段相位失配的问题(方法创新)
▸创新点2:分频触发器生成2.4 GHz正交信号的设计,通过创新的电路结构避免了高频直接生成带来的功耗和噪声问题,同时保持较低的相位噪声性能(电路创新)
▸创新点3:整体系统集成方案在单芯片上实现了2.4 GHz和5 GHz双频段正交信号生成,支持WLAN多标准,面积仅2 mm²,功耗5 mA@2.5V(系统创新)
▸创新点4:采用0.25-μm SiGe BiCMOS工艺实现,结合了双极型器件的高频特性和CMOS的集成优势,在5 GHz高频段实现优于传统CMOS方案的相位噪声性能(工艺创新)
Abstract
A self-calibrated quadrature generator capable of
generating local oscillator (LO) outputs for IEEE 802.11a-b is
presented. The quadrature generator is embedded in a frequency
synthesizer that generates reference frequencies at 2.4 and 5 GHz.
A new sequential calibration scheme maintains the quadrature
at the 5-GHz output within a maximum phase error of 2
, while
a divide-by-two flip-flop generates the quadrature output at
2.4 GHz. The circuit is fabricated in a 0.25-
m SiGe BiCMOS
technology and