Hao Gao, Kuangyuan Ying, M. Matters-Kammerer, P. Harpe, Q. Ma, A. V. van Roermund, P. Baltus
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A 48–61 GHz LNA in 40-nm CMOS with 3.6 dB minimum NF employing a metal slotting method
This paper presents a low noise amplifier realized in 40-nm CMOS technology for the 60 GHz ISM band. To reduce the noise contribution from the input passive structure, a new metal slotting method is applied to the transmission line for increasing the effective conducting cross-section area. The design incorporates additional noise matching between the common-source stage and the common-gate stage to reduce the noise impact by the latter stage. The measured noise figure is below 4 dB from 51 GHz to 65 GHz, 3.6 dB at 55 GHz and 3.8 dB at 60 GHz. The achieved 3 dB power gain bandwidth is 13 GHz, from 48 GHz to 61 GHz. The peak transducer gain (Gt) is 15 dB at 55 GHz, and 12.5 dB at 60 GHz. The total power consumption is 20.4 mW.
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