A 0.9 V 0.4-6 GHz Harmonic Recombination SDR Receiver in 28 nm CMOS With HR3/HR5 and IIP2 Calibration.
J. Solid-State Circuits(2014)
摘要
A software-defined radio receiver is presented, operating from 400 MHz to 6 GHz. The split front-end architecture has a low-band RF path (0.4-3 GHz) using 8-phase passive mixers and a high-band RF path (3-6 GHz) using 4-phase passive mixers. DC-offset, IIP2, and harmonic recombination for harmonic rejection may be calibrated to achieve true wideband specifications. A 0.5-50 MHz tunable baseband bandwidth implies compliance with LTE and future standards. Despite having a 0.9 V supply, the receiver architecture ensures high out-of-band linearity. The 0.6 mm(2), 28 nm CMOS receiver achieves down to 1.8 dB NF, >+3 dBm out-of-band IIP3, >70 dB calibrated HR3/5 and >+80 dBm calibrated IIP2. It tolerates 0 dBm blockers at 80 MHz offset with a blocker NF of 10 dB for a power consumption of 20-40 mW.
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关键词
CMOS integrated circuits,Long Term Evolution,calibration,mixers (circuits),radio receivers,software radio,4-phase passive mixers,8-phase passive mixers,CMOS receiver,DC-offset,HR3-HR5 calibration,IIP2 calibration,LTE,SDR receiver,frequency 0.4 GHz to 6 GHz,frequency 0.5 MHz to 50 MHz,harmonic recombination,harmonic rejection,high-band RF path,low-band RF path,noise figure 10 dB,power 20 mW to 40 mW,size 28 nm,software-defined radio receiver,split front-end architecture,tunable baseband bandwidth,voltage 0.9 V,wideband specifications,28 nm CMOS,8-phase,Blocker,filter,harmonic recombination,low-power,passive mixer,receiver,software-defined radio,wideband
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