S.H.K. Embabi scite author profile

Abstract-The conventional common-gate low-noise amplifier (CGLNA) exhibits a relatively high noise figure (NF) at low operating frequencies relative to the MOSFET , which has limited its adoption notwithstanding its superior linearity, input matching, and stability compared to the inductively degenerated common-source LNA (CSLNA). A capacitor cross-coupled -boosting scheme is described that improves the NF and retains the advantages of the CGLNA topology. The technique also enables a significant reduction in current consumption. A fully integrated capacitor cross-coupled CGLNA implemented in 180-nm CMOS validates the -boosting technique. It achieves a measured NF of 3.0 dB at 6.0 GHz and consumes only 3.6 mA from 1.8 V; the measured input-referred third-order intercept (IIP3) value is 11.4 dBm. The capacitor cross-coupled -boosted CGLNA is attractive for low-power fully integrated applications in fine-line CMOS technologies.Index Terms-Common-gate amplifier, low-noise amplifier (LNA), noise figure (NF), RF integrated circuits.

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Multistage amplifier topologies with nested G/sub m/-C compensation

You

Embabi

Sánchez-Sinencio

1997

IEEE J. Solid-State Circuits

212

104

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A 22nm FDSOI Technology Optimized for RF/mmWave Applications

et al. 2018

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A current-mode based field programmable analog array architecture for signal processing applications

Quan

Embabi²,

Sánchez-Sinencio³

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Calibration of Phase and Gain Mismatches in Weaver Image-Reject Receiver

Elmala

Embabi

2004

IEEE J. Solid-State Circuits

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S.H.K. Embabi

A capacitor cross-coupled common-gate low-noise amplifier

Multistage amplifier topologies with nested G/sub m/-C compensation

A 22nm FDSOI Technology Optimized for RF/mmWave Applications

A current-mode based field programmable analog array architecture for signal processing applications

Calibration of Phase and Gain Mismatches in Weaver Image-Reject Receiver

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