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设计了针对解决900MHz RFID读写器收发机芯片中本地载波干扰问题而优化的直接变频接收机,并在0.18μm 1P6M 混合信号CMOS工艺上实现验证. 设计中使用了一种串联反馈结构的基带放大器以达到同时实现无源混频器输出缓冲,直流消除以及信号放大的功能. 实际测量显示,该接收机的输入1dB压缩点为-4dBm,当中频信号解调信噪比要求为10dB时,可达到的灵敏度为-70dBm. 该接收机与整个收发机集成在同一块芯片中,使用1.8V电源电压,工作时静态电流为90mA. 相似文献
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设计了针对解决900MHz RFID读写器收发机芯片中本地载波干扰问题而优化的直接变频接收机,并在0.18μm 1P6M混合信号CMOS工艺上实现验证.设计中使用了一种串联反馈结构的基带放大器以达到同时实现无源混频器输出缓冲,直流消除以及信号放大的功能.实际测量显示,该接收机的输入1dB压缩点为-4dBm,当中频信号解调信噪比要求为10dB时,可达到的灵敏度为-70dBm.该接收机与整个收发机集成在同一块芯片中,使用1.8V电源电压,工作时静态电流为90mA. 相似文献
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A CMOS variable gain amplifier(VGA) that adopts a novel exponential gain approximation is presented.No additional exponential gain control circuit is required in the proposed VGA used in a direct conversion receiver.A wide gain control voltage from 0.4 to 1.8 V and a high linearity performance are achieved.The three-stage VGA with automatic gain control(AGC) and DC offset cancellation(DCOC) is fabricated in a 0.18-μm CMOS technology and shows a linear gain range of more than 58-dB with a linearity error less than ±1 dB.The 3-dB bandwidth is over 8 MHz at all gain settings.The measured input-referred third intercept point(IIP3) of the proposed VGA varies from-18.1 to 13.5 dBm,and the measured noise figure varies from 27 to 65 dB at a frequency of 1 MHz.The dynamic range of the closed-loop AGC exceeds 56 dB,where the output signal-to-noise-and-distortion ratio(SNDR) reaches 20 dB.The whole circuit,occupying 0.3 mm^2 of chip area,dissipates less than 3.7 mA from a 1.8-V supply. 相似文献
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