Compact and low power consumption K-band differential low-noise amplifier design using transformer feedback technique

## Abstract This letter presents a full band low power low noise amplifier design in 0.18‐μm complementary metal‐oxide‐semiconductor FET (CMOS) technology.The proposed circuit adopts current reused technique to achieve low power consumption, and shunt resistive feedback for wide‐band operation. An

## Abstract A low‐power‐consumption 53‐GHz (V‐band) low‐noise amplifier (LNA) using standard 0.13 μm CMOS technology is reported. To achieve sufficient gain, this LNA is composed of four cascaded common‐source stages. Current‐sharing technique is adopted in the third and four stages to reduce the p

## Abstract A 28.2 GHz (K‐band) low‐noise amplifier (LNA) using standard 0.18‐μm CMOS technology was designed and implemented. To achieve sufficient gain, this LNA was composed of three cascaded common‐source stages, and a peaking inductor (L~g3~) was added in the input terminal of the third stage

## Abstract This paper presents the design approach and test results of a four‐stage 1.6‐W K‐band MMIC power amplifier developed for point‐to‐point radio applications. The design of the power amplifier was based on a small signal low loss matching technique. The MMIC was fabricated employing GaAs b