▸单权重组合器(SWC)系统:通过两天线阵列接收器实现信号的最大比合并(MRC),相比单路径接收器提升3dB信噪比(SNR),显著提高接收灵敏度。该系统在0.13µm CMOS工艺中仅占用0.29mm²面积,功耗低至30mW,属于系统级创新。
▸新型信号路径笛卡尔相位生成与组合技术:提出22.5°步进的射频信号相位变换方法,通过Cartesian相位调制器实现精确波束成形。该技术将传统模拟移相器数字化,属于混合信号电路创新,支持802.11abg多标准兼容。
▸低功耗自适应校准架构:集成发射/接收路径的自动增益控制(AGC)、直流偏移校准和正交误差补偿,使整个射频前端功耗降至85mW。通过数字辅助模拟电路校准,实现方法创新与电路创新的结合。
▸紧凑型射频前端设计:在10mm²芯片面积内集成双天线接收链、发射链和基带接口,采用0.13µm CMOS工艺实现50Ω阻抗匹配。其中SWC接收机模块面积仅0.29mm²,体现高集成度电路创新。
Abstract
rtesian
Phase Shifter and Mixer Circuit
Ali Afsahi, Member , IEEE, Jacob J. Rael , Member , IEEE, Arya Behzad , Senior Member , IEEE,
Hung-Ming (Ed) Chien , Member , IEEE, Michael Pan, Stephen Au, Adedayo Ojo,
C. Paul Lee, Seema Butala Anand, Kevin Chien, Stephen Wu, Rozi (Razieh) Roufoogaran,
Alireza Zolfaghari, Senior Member , IEEE, John C. Leete , Member , IEEE, Long Tran, Keith A. Carter,
Mohammad Nariman, Member , IEEE, Keno Wai-Ki Y eung, Walter Morton, Mark Gonikberg , Member , IEEE,
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