The ever-growing demand for low power, high performance, cost-effective, low-profile, and
highly integrated wireless systems for emerging applications has triggered the need for the …

With the fast development of advanced communication systems, wideband low-noise
amplifiers (LNAs) have become more and more critical as they determine the overall …

In this paper, we propose a low noise amplifier (LNA) using ag m-boosting technique with
improved stability using transformers in the millimeter-wave (mm-Wave) band. The …

This paper investigates design considerations and challenges of integrating on-chip
antennas in nanoscale CMOS technology at millimeter-wave (mm-wave) to achieve a …

A wideband CMOS low-noise amplifier (LNA) with multiple resonant frequencies is
demonstrated in this article. A common source (CS) with inductive degeneration topology is …

This brief presents a wideband millimeter-wave (mm-Wave) low noise amplifier (LNA) with a
triple-coupled technique for multiband wireless applications. To enlarge the gain and reduce …

This paper presents a fully digital beamforming receiver (FDBR) using a method that
calibrates the signals of all chains in real time, and is targeted for 5G mobile communication …

In this brief, designs of two millimeter wave (mmWave) reconfigurable multi band low noise
amplifiers (LNA) are presented targeted for fifth generation (5G) communications. A …

This article presents a 22–47 GHz wideband low-noise amplifier (LNA) with coupled L-type
interstage matching inductors. The coupled inductors extend the bandwidth of LNA by …

This article presents design techniques to facilitate the use of the driving point impedance (Z
11) of one-port transformer-coupled resonators as wideband loads of millimeter-wave …