A 5.2 GHz low-voltage low-noise amplifier with 0.35 μm CMOS technology

A low-voltage CMOS low-noise amplifier (LNA) architecture is presented. We have used a TSMC 0.35 mum CMOS high-frequency model to design a fully integrated 1V, 5.2 GHz two-stage CMOS low-noise amplifier for RF front-end applications. No off-chip element is needed and a conventional common-source with feedback technology is used in this circuit. The first stage of the LNA is the common-source with feedback structure and the output stage is a buffer which increases the gain somewhat. An interstage negative-impedance circuit is added between the two stages of the LNA to further enhance the overall gain and thus upgrade its performance. Mainly because of the finite Q of the inductor, the negative-impedance circuit used in this interstage can cancel the losses in the first-stage inductor load. The input and output matching network is matched to approximately 50Omega. The simulation results show that the amplifier provides a gain of 9.48 dB, a noise figure of 4.08 dB, and draws 13.4 mW from a 1 V supply. The S11 and S22 are both lower than - 15 dB.