A 1.5 GHz low noise amplifier for a Global Positioning System (GPS) receiver has been implemented in a 0.6m CMOS process. This amplifier provides a forward gain of 22dB with a noise figure of only 3.5dB while drawing 30mW from a 1.5V supply. To the authors' knowledge, this represents the lowest noise figure reported to date for a CMOS amplifier operating above 1GHz. Introduction The demand for portable, inexpensive GPS systems motivates the investigation of low-noise front end techniques in standard CMOS processes. It has been shown that sub-micron CMOS devices exhibit excess thermal noise [1][2]. Nonetheless, recent work has demonstrated the viability of CMOS low noise amplifiers (LNA's) at frequencies as high as 900MHz [3]. In...
Thesis (M.S.)--University of Hawaii at Manoa, 2005.Includes bibliographical references (leaves 95-98...
A 1.2 V, 0.61 mA bias current, low noise amplifier (LNA) suitable for low-power applications in the ...
In this research article, we propose a Low Noise Amplifier which utilizes 1.748GHz (mid frequency) b...
A 1.6 GHz CMOS single-ended low noise amplifier (LNA) optimized for integration and use in Global Po...
At submicron channel lengths, CMOS is an attractive alternative to silicon bipolar and GaAs MESFET t...
A cascode LNA was optimized for a GPS receiver radio frequency front end using a 0.18 μm CMOS techno...
In this paper, focuses on the design of Low Noise Amplifier circuitry in the frequency band L. This ...
A 1.9 GHz low noise amplifier has been designed in a standard CMOS .35 micron process. The amplifier...
Abstract. The subject of this work is a low noise amplifier (LNA), operating in the frequency range ...
A 1.8 GHz low-noise amplifier has been designed and fabricated in a standard 0.35 pm CMOS process. M...
A 1.227 GHz low power single-ended input, differential output low noise amplifier (balun LNA) for GP...
In recent years, there have been growing demands for bandwidth, for both voice and data communicatio...
To meet the requirements of wearable wireless sensor networks, the power dissipation of the RF trans...
As the first active component of a receiver, low noise amplifier plays an important role to amplify ...
A 1V, 1GHz low noise amplifier (LNA) has been designed and simulated using Spectre simulator in a st...
Thesis (M.S.)--University of Hawaii at Manoa, 2005.Includes bibliographical references (leaves 95-98...
A 1.2 V, 0.61 mA bias current, low noise amplifier (LNA) suitable for low-power applications in the ...
In this research article, we propose a Low Noise Amplifier which utilizes 1.748GHz (mid frequency) b...
A 1.6 GHz CMOS single-ended low noise amplifier (LNA) optimized for integration and use in Global Po...
At submicron channel lengths, CMOS is an attractive alternative to silicon bipolar and GaAs MESFET t...
A cascode LNA was optimized for a GPS receiver radio frequency front end using a 0.18 μm CMOS techno...
In this paper, focuses on the design of Low Noise Amplifier circuitry in the frequency band L. This ...
A 1.9 GHz low noise amplifier has been designed in a standard CMOS .35 micron process. The amplifier...
Abstract. The subject of this work is a low noise amplifier (LNA), operating in the frequency range ...
A 1.8 GHz low-noise amplifier has been designed and fabricated in a standard 0.35 pm CMOS process. M...
A 1.227 GHz low power single-ended input, differential output low noise amplifier (balun LNA) for GP...
In recent years, there have been growing demands for bandwidth, for both voice and data communicatio...
To meet the requirements of wearable wireless sensor networks, the power dissipation of the RF trans...
As the first active component of a receiver, low noise amplifier plays an important role to amplify ...
A 1V, 1GHz low noise amplifier (LNA) has been designed and simulated using Spectre simulator in a st...
Thesis (M.S.)--University of Hawaii at Manoa, 2005.Includes bibliographical references (leaves 95-98...
A 1.2 V, 0.61 mA bias current, low noise amplifier (LNA) suitable for low-power applications in the ...
In this research article, we propose a Low Noise Amplifier which utilizes 1.748GHz (mid frequency) b...