Low-voltage operational amplifier in 0.12 μm digital CMOS technology

## Abstract A Q‐band low‐noise amplifier (LNA) suitable for low‐voltage operation is presented in this paper.The amplifier uses a low‐voltage cascode structure in the first stage of the amplifier and was fabricated using a 0.13‐μm RF CMOS process with eight layers of copper metallization. Low‐volta

## Abstract A K‐band low‐noise amplifier (LNA) was realized in a standard 0.18‐μm CMOS technology. The cascaded common‐source configuration of four stages was adopted for low voltage operation and high gain performance. In addition, the gate‐source transformer feedback technique was employed to ach

## Abstract A 20‐GHz CMOS low‐noise amplifier (LNA) fabricated with the 0.18 μm process is presented. This two‐stage cascaded common source LNA exhibits low power consumption with a satisfying performance such as overall gain and noise figure (NF). The measurement is performed on‐wafer. The 20‐GHz

## Abstract A two stage ultra wideband (UWB) amplifier is presented. This amplifier incorporates multiple bandwidth enhancing techniques and is implemented in Austria micro systems (AMS) 0.35 μm CMOS process technology. The amplifier consumes 39.5 mW of power, exhibits a maximum gain of 13 dB, has