Abstract — A discrete-time mixing architecture for software defined radio receivers is proposed. It exploits 8x RF voltage oversampling followed by charge domain weighting to achieve 40dB 3rd and 5th harmonic rejection without channel bandwidth limitations. Also noise folding is reduced by 3dB. A zero-IF downconverter chip in 65nm CMOS can receive RF signals up to 900MHz, with NFmin=12dB, IIP3=11dBm at <20mW power consumption including multi-phase clock generation
Abstract—CMOS radio receiver architectures, based on radio frequency (RF) sampling followed by discr...
This work presents a frequency domain ultra-wideband receiver architecture spanning from 500 MHz to ...
The number of wireless communication links is witnessing tremendous growth and new standards are bei...
A discrete-time mixing architecture for software-defined radio receivers exploits 8 RF voltage overs...
A discrete-time mixing architecture for software defined radio receivers is proposed. It exploits 8x...
Abstract—A discrete-time (DT) mixing architecture for RF-sampling receivers is presented. This archi...
Recently several CMOS software-defined radio (SDR) demonstra-tors have been presented using mixers a...
There has been a growing demand for wireless communications and diverse communication standards have...
Abstract — Two techniques are presented in this paper for a software-defined radio (SDR) receiver ro...
Abstract There is a growing demand for wireless communications at increased data rates. This has nec...
Abstract—A software-defined radio (SDR) receiver with improved robustness to out-of-band interferenc...
Abstract—A multiband flexible RF-sampling receiver aimed at software-defined radio is presented. The...
A multiband flexible RF-sampling receiver aimed at software-defined radio is presented. The wideband...
The widespread usage of mobile communication in recent decades has crowded the frequency spectrum wi...
In a software-defined radio (SDR) receiver it is desirable to minimize RF band-filtering for flexibi...
Abstract—CMOS radio receiver architectures, based on radio frequency (RF) sampling followed by discr...
This work presents a frequency domain ultra-wideband receiver architecture spanning from 500 MHz to ...
The number of wireless communication links is witnessing tremendous growth and new standards are bei...
A discrete-time mixing architecture for software-defined radio receivers exploits 8 RF voltage overs...
A discrete-time mixing architecture for software defined radio receivers is proposed. It exploits 8x...
Abstract—A discrete-time (DT) mixing architecture for RF-sampling receivers is presented. This archi...
Recently several CMOS software-defined radio (SDR) demonstra-tors have been presented using mixers a...
There has been a growing demand for wireless communications and diverse communication standards have...
Abstract — Two techniques are presented in this paper for a software-defined radio (SDR) receiver ro...
Abstract There is a growing demand for wireless communications at increased data rates. This has nec...
Abstract—A software-defined radio (SDR) receiver with improved robustness to out-of-band interferenc...
Abstract—A multiband flexible RF-sampling receiver aimed at software-defined radio is presented. The...
A multiband flexible RF-sampling receiver aimed at software-defined radio is presented. The wideband...
The widespread usage of mobile communication in recent decades has crowded the frequency spectrum wi...
In a software-defined radio (SDR) receiver it is desirable to minimize RF band-filtering for flexibi...
Abstract—CMOS radio receiver architectures, based on radio frequency (RF) sampling followed by discr...
This work presents a frequency domain ultra-wideband receiver architecture spanning from 500 MHz to ...
The number of wireless communication links is witnessing tremendous growth and new standards are bei...