← 返回 JSSC 论文列表JSSC 2006第12期RF & Wireless0.13μm
A Polyphase Multipath Technique for Software-Defined Radio Transmitters
提出一种多相多路径技术,用于软件定义无线电发射机,减少谐波和边带,无需滤波器。
0.13μm CMOS, 1.2V, DC to 2.4 GHz, 8 mW输出功率
软件定义无线电多相多路径谐波消除无滤波器CMOS
▸创新点1:多相多路径技术通过相位交错和路径复用,实现了对谐波和边带的高效消除,无需传统滤波器,显著提升了频谱纯净度(18-path模式下谐波抑制达40dBc以上)。
▸创新点2:谐波和边带消除采用动态相位抵消机制,在0.13μm CMOS工艺中实现了从DC至2.4GHz的全频段无校准抑制(支持17次谐波抑制),突破了传统滤波器的带宽限制。
▸创新点3:无滤波器设计通过数字电路和混频器的协同架构,在228mW功耗下输出8mW功率(2.54V电压摆幅),解决了软件定义无线电中滤波器面积与灵活性的矛盾。
▸创新点4:多模式可配置架构(6-path/18-path)支持动态切换工作模式,适应不同频段需求,在5次至17次谐波抑制间实现灵活权衡,增强系统适用性。
Abstract
Transmitter circuits using large signal swings and
hard-switched mixers are power-efficient, but also produce un-
wanted harmonics and sidebands, which are commonly removed
using dedicated filters. This paper presents a polyphase multipath
technique to relax or eliminate filters by canceling a multitude
of harmonics and sidebands. Using this technique, a wideband
and flexible power upconverter with a clean output spectrum is
realized in 0.13-
m CMOS, aiming at a software-defined radio
application. Pr