CMOS integrated circuits; biomedical electronics; biomedical measurement; digital signal processing chips; feature extraction; low-power electronics; patient monitoring; radar applications; wireless sensor networks; CMOS low power impulse radar chip; DSP platform; TSMC CMOS technology; all digital standard cell-based design; human respiratory activity monitoring; human respiratory feature extraction; human respiratory feature extraction algorithm; power 21 mW; power consumption; pulse generator; range gated sensing; respiratory diseases; size 65 nm; timing circuitry; wireless sensor system; CMOS integrated circuits; Feature extraction; Radar; Radar antennas; Receivers; Wireless communication; Wireless sensor networks; CMOS; DSP; human respiratory feature extraction algorithm; impulse radar; wireless sensor;
机译:用于人类呼吸特征提取和呼吸系统疾病诊断的65 nm CMOS低功率脉冲雷达系统
机译:低功耗,微型温度传感器,单点校准精度+/- 0.25度C-55至125摄氏度,在65nm CMOS过程中
机译:65nm CMOS技术中的超低稳态电流电流正电阻
机译:用于呼吸特征提取的65nm CMOS低功率脉冲雷达
机译:采用65nm CMOS技术的基于时间的低功耗,低失调5位1 Gs / S闪存ADC设计
机译:使用整流器具有机械开关电感器的信号特征的被动提取用于低功耗声学事件检测
机译:65nm CMOS中超低功耗/低功耗亚阈值D触发器的性能与鲁棒性之间的权衡