A fully integrated dual-band low-noise amplifier for bluetooth and wireless LAN applications

## Abstract This paper presents a fully integrated concurrent dual‐band CMOS low‐noise amplifier (LNA). The LNA is implemented in a standard 0.18‐μm 6M1P CMOS process and is designed from the system viewpoint to provide higher gain at the higher band, for the first time, to compensate the higher‐ba

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 A fully integrated concurrent dual‐band low noise amplifier using InGaP/GaAs HBT technology is demonstrated for the first time. A new methodology is proposed so as to achieve simultaneous narrow‐band gain and impedance matching at multiple frequencies. The experimental results showed th

## Abstract In this article, a 0.5 V X‐band low noise amplifier (LNA) composed of two common‐source stages is designed and fabricated with 0.18 um CMOS technology.Based on the structure of cascaded common‐source stages and forward body bias technology, the supply voltage is reduced. Measurement res

## Abstract In this study, a concurrent triple‐band low noise amplifier (LNA) is designed for long term evolution (LTE), Mobile‐WiMAX (M‐WiMAX), and WiMAX services. The main topology of the proposed LNA is a cascode architecture with source degeneration using shunt resistive feedback topology for t

## Abstract A dual‐band (868/915 MHz and 2.4 GHz) low noise amplifier for Zigbee applications is designed using 0.35‐μm CMOS technology.At 868/915 MHz and 2.4 GHz, the gains achieved are both 16 dB and the resulting noise figures are about 2.5 dB and 2.7 dB, respectively. The input and the output r