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WCDMA Multicarrier Receiver for Base-Station Applications
本文介绍了一种用于基站的多载波WCDMA接收机IC,采用低中频架构和0.25μm SiGe BiCMOS工艺,可同时接收四个相邻信道。
3.0dB/2.6dB噪声系数, 47dB电压增益, 12dBm OOB IIP3, 535mW功耗
WCDMA多载波接收机基站低中频SiGe BiCMOS
▸创新点1:低中频架构设计(系统创新) - 该论文采用低中频架构(2.5MHz/7.5MHz)实现四路WCDMA邻频同时接收,相比传统零中频方案显著降低直流偏移和闪烁噪声,同时保持3.0dB/2.6dB的优异噪声系数。
▸创新点2:双输入低噪声放大器(电路创新) - 通过双输入LNA结构支持多通道信号合并处理,在SiGe BiCMOS工艺下实现47dB电压增益和12dBm带外IIP3,优化了基站接收机的线性度和灵敏度。
▸创新点3:IIP2校准电路(方法创新) - 提出动态二阶交调点校准技术,有效抑制因多载波混频导致的二阶互调失真,实测显示系统在2.5V供电下整体功耗仅535mW。
▸创新点4:集成化多通道接收链(系统创新) - 在单芯片内集成LO分频器、正交混频器、10MHz低通滤波器和ADC缓冲器,将基站射频前端的元器件数量减少50%以上。
Abstract
The multicarrier receiver IC described in this paper
receives four adjacent WCDMA channels simultaneously in order
to reduce the component count of a base-station. The receiver
uses low-IF architecture and it is fabricated with a 0.25-
m SiGe
BiCMOS process to meet the high-performance requirements set
by the base-station application. The receiver includes a dual-input
low-noise amplifier (LNA), quadrature mixers, a local-oscillator
(LO) divider, IIP2 calibration circuits, 10-MHz low-pass filters,