Design of variable gain low noise amplifier using feedback circuit with memory circuits for 5.2 GHz band

Won Tae Lee; Jaehoon Lee; Jichai Jeong

doi:10.1007/s10470-011-9615-8

Design of variable gain low noise amplifier using feedback circuit with memory circuits for 5.2 GHz band

Won Tae Lee, Jaehoon Lee, Jichai Jeong

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

This paper presents a novel adaptive gain control method for Low Noise Amplifiers (LNAs) at the 5.2 GHz band using a feedback circuit, and operating in the baseband signal frequency. A uniform step variable gain can be implemented using a two-stage LNA based on the cascade topology. The feedback circuit consists of seven functional blocks, each of which has been designed for minimum power consumption. The storage circuit in the feedback circuit is used to store the previous signal magnitude, thus avoiding unnecessary power consumption in the LNA. We simulated the performances of LNA in terms of the gain, IIP3, Noise Figure (NF), stability, and power consumption. The adaptive front-end LNA with the feedback circuit can achieve a variable gain from 11.39 dB to 22.74 dB with excellent noise performance even at a high gain mode. The DC power of the proposed variable gain LNA consumes 5.68-6.75 mW under a 1.8 V supply voltage.

Original language	English
Pages (from-to)	43-50
Number of pages	8
Journal	Analog Integrated Circuits and Signal Processing
Volume	68
Issue number	1
DOIs	https://doi.org/10.1007/s10470-011-9615-8
Publication status	Published - 2011 Jul

Keywords

Baseband signal
Feedback
Low noise amplifier
Variable gain

ASJC Scopus subject areas

Signal Processing
Hardware and Architecture
Surfaces, Coatings and Films

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10.1007/s10470-011-9615-8

Cite this

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abstract = "This paper presents a novel adaptive gain control method for Low Noise Amplifiers (LNAs) at the 5.2 GHz band using a feedback circuit, and operating in the baseband signal frequency. A uniform step variable gain can be implemented using a two-stage LNA based on the cascade topology. The feedback circuit consists of seven functional blocks, each of which has been designed for minimum power consumption. The storage circuit in the feedback circuit is used to store the previous signal magnitude, thus avoiding unnecessary power consumption in the LNA. We simulated the performances of LNA in terms of the gain, IIP3, Noise Figure (NF), stability, and power consumption. The adaptive front-end LNA with the feedback circuit can achieve a variable gain from 11.39 dB to 22.74 dB with excellent noise performance even at a high gain mode. The DC power of the proposed variable gain LNA consumes 5.68-6.75 mW under a 1.8 V supply voltage.",

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AU - Lee, Won Tae

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AU - Jeong, Jichai

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N2 - This paper presents a novel adaptive gain control method for Low Noise Amplifiers (LNAs) at the 5.2 GHz band using a feedback circuit, and operating in the baseband signal frequency. A uniform step variable gain can be implemented using a two-stage LNA based on the cascade topology. The feedback circuit consists of seven functional blocks, each of which has been designed for minimum power consumption. The storage circuit in the feedback circuit is used to store the previous signal magnitude, thus avoiding unnecessary power consumption in the LNA. We simulated the performances of LNA in terms of the gain, IIP3, Noise Figure (NF), stability, and power consumption. The adaptive front-end LNA with the feedback circuit can achieve a variable gain from 11.39 dB to 22.74 dB with excellent noise performance even at a high gain mode. The DC power of the proposed variable gain LNA consumes 5.68-6.75 mW under a 1.8 V supply voltage.

AB - This paper presents a novel adaptive gain control method for Low Noise Amplifiers (LNAs) at the 5.2 GHz band using a feedback circuit, and operating in the baseband signal frequency. A uniform step variable gain can be implemented using a two-stage LNA based on the cascade topology. The feedback circuit consists of seven functional blocks, each of which has been designed for minimum power consumption. The storage circuit in the feedback circuit is used to store the previous signal magnitude, thus avoiding unnecessary power consumption in the LNA. We simulated the performances of LNA in terms of the gain, IIP3, Noise Figure (NF), stability, and power consumption. The adaptive front-end LNA with the feedback circuit can achieve a variable gain from 11.39 dB to 22.74 dB with excellent noise performance even at a high gain mode. The DC power of the proposed variable gain LNA consumes 5.68-6.75 mW under a 1.8 V supply voltage.

KW - Baseband signal

KW - Feedback

KW - Low noise amplifier

KW - Variable gain

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Design of variable gain low noise amplifier using feedback circuit with memory circuits for 5.2 GHz band

Abstract

Keywords

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