Applications of Body Biasing in Multistage CMOS Low-Noise Amplifiers.

Low-noise amplifiers (LNAs) are one of the important building blocks of wireless receivers. LNA design parameters such as gain, noise figure, linearity, input matching, and stability are important metrics and typically affect the overall performance of the receiver. The strong trade-offs among these design parameters often necessitate several design iterations. While many of these trade-offs are due to the nature of the circuit and are inevitable, it is desirable to decouple the effects of each parameter on the others. In this work, body biasing is introduced as a technique to enhance the linearity, to improve the noise figure and to provide gain variation. These techniques are presented in the context of a three-stage LNA. By applying body biasing in each stage, noise figure, gain variation and linearity of the overall amplifier are adjusted almost independently, i.e., with minimal interrelation among these design parameters. As a proof-of-concept, a prototype 4.4-GHz LNA is designed and fabricated in a 0.13-\mu m CMOS technology. The LNA achieves a minimum noise figure of 3.8 dB, maximum gain of 20.2 dB, and a maximum IIP3 of -14 ~\ dBm while consuming 3.6 mW from a 1.2 V supply. [ABSTRACT FROM AUTHOR]