A 2.4 GHz sub 1-mW highly linear differential LNA using balun transformer gm-boosting technique
B Mazhabjafari, H Shamsi - Microelectronics Journal, 2022 - Elsevier
This paper presents a passive g m-boosting differential low noise amplifier (LNA) for low
power applications using a single-to-double transformer. This LNA improves noise figure …
power applications using a single-to-double transformer. This LNA improves noise figure …
A high linearity UWB LNA using a novel linearizer feedback, based on complementary derivation superposition techniques
BD Yaghouti, J Yavandhasani - Analog Integrated Circuits and Signal …, 2022 - Springer
This paper presents a low-noise amplifier (LNA) with superior linearity for ultra-wideband
(UWB) purposes. Linearity is a significant parameter for 5G receivers because the 5G new …
(UWB) purposes. Linearity is a significant parameter for 5G receivers because the 5G new …
Design of a Frequency Reconfigurable Low Noise Amplifier for the Terahertz Band
I Halkhams, W El Hamdani, M Fattah - Terahertz Devices, Circuits and …, 2022 - Springer
During the last decades, communication systems have continued to develop to reach higher
frequencies and become more compact whilst consuming the minimum amount of energy …
frequencies and become more compact whilst consuming the minimum amount of energy …
An ultra‐low‐power low‐noise amplifier using a combination of current reuse and self‐forward body bias techniques for biomedical applications
Low‐power low noise amplifiers (LNAs) are critical block in the radio frequency (RF) front‐
end of medical device radiocommunications service (MedRadio) receivers for amplifying …
end of medical device radiocommunications service (MedRadio) receivers for amplifying …