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01 A W-Band Single-Antenna FMCW Radar Transceiver With Adaptive Leakage Cancella
提出一种W波段单天线FMCW雷达收发器,采用自适应泄漏消除技术。
65nm CMOS, 1.2V, 80-84GHz, 2dBm TX功率, 45dB RX增益, 15dB噪声系数, 45dB隔离度, 108mW总功耗
W波段FMCW雷达单天线收发器泄漏消除CMOS
▸创新点1:单天线共享架构(系统创新) - 该论文提出了一种在W波段FMCW雷达中采用单天线共享发射和接收的架构,显著减小了雷达模块的尺寸、成本和复杂度,同时解决了传统双天线系统的空间占用问题。
▸创新点2:模拟反馈泄漏消除技术(电路创新) - 通过引入模拟反馈机制,在接收输入端口直接抑制发射泄漏信号,有效防止接收链饱和和灵敏度下降,实现了45 dB以上的TX-to-RX隔离度。
▸创新点3:W波段高隔离度设计(方法创新) - 在80-84 GHz频段内,结合自适应泄漏消除技术和65nm CMOS工艺,实现了高输出功率(2 dBm)和低噪声系数(15 dB)的平衡,提升了雷达系统的整体性能。
▸创新点4:低功耗紧凑型实现(电路创新) - 采用1.2V电源供电,整体功耗仅为108 mW(TX 80.5 mW,RX 27.5 mW),芯片面积仅1 mm²,在W波段实现了高集成度的单天线雷达收发器。
Abstract
This article presents a leakage cancellation archi-
tecture for single-antenna frequency-modulated continuous-wave
(FMCW) radars at W-band. A shared antenna for transmit-
ter (TX) and receiver (RX) can substantially reduce the form
factor, cost, and complexity of radar modules. Due to the
simultaneous operation of the TX and RX in FMCW radars,
employing a shared antenna will, however, significantly increase
TX-to-RX leakage, resulting in RX saturation and desensitization.
Our proposed cancellatio