A Low-Power, Linearized, Ultra-Wideband LNA Design Technique

## Abstract A low noise amplifier scheme to achieve low‐voltage and wide‐bandwidth operation is presented. This circuit is based on folded cascode topology combined with wideband impedance matching and shunt peaking load. One of the drawbacks of the proposed scheme is that it uses more area than th

## Abstract In this article, a low‐noise amplifier (LNA) for ultra‐wideband (UWB) systems operating at 3–5 GHz frequency range is presented. The proposed LNA uses an on‐chip transformer to achieve the realization of a wideband input‐integrated matching to the antenna impedance, as well as the casco

## Abstract A linear, Ultra Wideband, low‐power VCO, suitable for UWB‐FM applications is proposed, forming the main part of a UWB‐FM transmitter. The VCO is designed in TSMC 90thinspacenm digital CMOS process and includes a Source‐Coupled Multivibrator, used as current‐controlled oscillator (CCO) w

## Abstract A CMOS low noise amplifier (LNA) for low‐power ultra‐wideband wireless applications is presented. To achieve low power consumption and wide operating bandwidth, the proposed LNA uses a current‐reused technique and a simple high‐pass input matching network. This work is implemented in 0.

## Abstract In this letter, for the first time, a genetic algorithm is applied successfully for the design and optimization of a multilayer slant linear polarizer to cover a bandwidth of 1:18. In the algorithm, the fitness function is selected based on the return‐loss requirement. A minimum of 10 d

## Abstract In this letter, we proposed a low power, high gain, compact ultra‐wideband (UWB) low noise amplifier (LNA) using TSMC 0.18‐μm CMOS technology.To satisfy the wide input matching and high voltage gain requirements with low power consumption, a resistive current reused technique is utilize