Optimized design of GaAs FET's for low-noise microwave amplifiers

The design of optimized resonant-cap circuits for IMPATT ( ) oscillators and amplifiers at X-band 8᎐12 GHz based on experimental results has been reported in this paper. The microwa¨e power output ( ) ( ) f 1 W of the oscillator and the gain f 20 dB of the amplifier realized with the IMPATT de¨ice m

## Abstract In this paper, we have successfully developed an intellectual parameter‐extraction methodology on the basis of a genetic algorithm (GA), involving the efficient search‐space separation and local‐minima‐convergence prevention schemes. Via an evolutionary simulation tool complemented with

This article thoroughly analyzes a concurrent dual-band low-noise amplifier (LNA) and carefully examines the effects of both active and passive elements on the performance of the dual-band LNA. As an example of the analysis, a fully integrated dual-band LNA is designed in a standard 0.18-m 6M1P CMOS

## Abstract In this work, feasible design target space is presented as an optimization problem for a basic low‐noise amplifier and solved by using particle swarm optimization (PSO). This feasible design space consists of {Noise Figure __F__, Input VSWR __V__~__i__~, Gain __G__~T~} triplets and thei