Lakshmipriya D | Sultan Qaboos University (original) (raw)
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NED University of Engineering and Technology
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Papers by Lakshmipriya D
This paper presents the design of a 1.5 V CMOS RF receiver front-end system which contains a low ... more This paper presents the design of a 1.5 V CMOS RF receiver front-end system which contains a low noise amplifier (LNA) with band pass filter and a down conversion mixer. An inter-stage matching network is added between the common-source and common-gate transistors in the LNA's first stage to further lower the noise and enhance the overall gain. An inductor is used in this inter-stage matching network because of the extra capacitive of MOSFETs in the LNA. The maximum gain achieved of this LNA is 15 dB. The single square-law structure was implemented for this low power consumption and high linearity mixer. From the measured results, the whole receiver provides a conversion gain of 8.5 dB at 2.4 GHz with LO power input -3.5 dBm. The power dissipation of this front-end is 9 mW .
This paper presents the design of a 1.5 V CMOS RF receiver front-end system which contains a low ... more This paper presents the design of a 1.5 V CMOS RF receiver front-end system which contains a low noise amplifier (LNA) with band pass filter and a down conversion mixer. An inter-stage matching network is added between the common-source and common-gate transistors in the LNA's first stage to further lower the noise and enhance the overall gain. An inductor is used in this inter-stage matching network because of the extra capacitive of MOSFETs in the LNA. The maximum gain achieved of this LNA is 15 dB. The single square-law structure was implemented for this low power consumption and high linearity mixer. From the measured results, the whole receiver provides a conversion gain of 8.5 dB at 2.4 GHz with LO power input -3.5 dBm. The power dissipation of this front-end is 9 mW .