Improving Low Energy Technology Application Performance: Enhancing Low Noise Amplifier via Stabilization and Input-Output Component Matching Design

Authors

  • Shinjini Yadav , Saima Beg

Abstract

The increasing miniaturization, enhanced integration, and improved accessibility of technology have led to the widespread adoption of complementary metal-oxide-semiconductor (CMOS) technology in wireless applications. In recent years, the utilization of wireless technology has experienced significant proliferation, encompassing not just consumer electronics but also extending to medical applications such as the deployment of body temperature and heart rate monitors. The recent emergence of a novel practice in swiftly monitoring information through the utilization of portable and wireless devices has incorporated the use of low noise amplifiers as a means of achieving energy efficiency. The objectives pursued in the proposed research article include doing an analysis of current trends in low-noise amplifier (LNA) needs and designs through a comprehensive review of existing literature. Additionally, the research aims to determine the optimal LNA topology and specifications for a certain frequency band or spectrum of application.

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Published

2022-11-07

How to Cite

Shinjini Yadav , Saima Beg. (2022). Improving Low Energy Technology Application Performance: Enhancing Low Noise Amplifier via Stabilization and Input-Output Component Matching Design. Migration Letters, 19(S8), 1683–1696. Retrieved from https://migrationletters.com/index.php/ml/article/view/10672

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Articles