Integrated balanced sampling circuit for ultra-wideband communications and radar systems

the Purpose Of The Ultra-wideband Short-pulse Electromagnetics Conference Series Is To Focus On Advanced Technologies For The Generation, Radiation And Detection Of Ultra-wideband Short Pulse Signals, Taking Into Account Their Propagation, Scattering From And Coupling To Targets Of Interest; To Repo

## SUMMARY The aim of this work is to present a circuit model to analyze and design ultra wideband (UWB) radars for the remote monitoring of breath activity. The model includes the impulse signal source, the transceiver antenna, the transmission medium, and the human thorax. First of all, the propo

## Abstract The partial dielectric‐loaded TEM horn (PDTEM) structure, which maintains ultra‐wideband antenna characteristics over a bandwidth ratio greater than 20:1 in order to improve the impulse‐radiation characteristics for ground penetrating radar systems is described in this paper. It is show

## Abstract A K‐band single balanced mixer for ultra‐wideband radar using a 0.18‐μm CMOS technology is presented. The designed mixer was applied to LC ladder matching technique on RF port and Marchand type balun with slot pattern ground on LO port for wideband operation, respectively. The mixer ach

## Abstract A fully integrated 0.13‐μm CMOS receiver for ultra‐wideband systems is implemented. This receiver enables eight bands of operation covering 3.1–9.0 GHz. The system, based on the Multiband OFDM Alliance standard proposal and consisting of a direct‐conversion receiver chain and required n

## Abstract This contribution shows different receiver concepts for the sampling of ultra‐wideband radar echoes.The core of all receiver architectures is the sequential sampling offering the possibility of manufacturing low‐cost hardware. Several sample circuits are proposed, compared, and verified