Add to ORKGIn the design of a single chip for wireless-sensor-network and WPAN applications (e.g., IEEE 802.15.4), the receiver sensitivity is generally sacrificed in favor of a vanishing power consumption and a low-cost solution. There is a trade off between these two requirements, as the use of resonant loads offers high power efficiency while an inductor-free approach saves die area resulting in a cheaper design. Since an LC-oscillator topology is mandatory to achieve a minimal current draw, the reduction of the number of coils has to be done in the LNA, the mixer and the quadrature generator. In this work, starting from the LNA-Mixer and VCO (LMV) cell topology, a single-coil low-power receiver shares the bias current among all the RF blocks of th...
With the proliferation of wireless standards and frequency bands, the manufacturers of consumer elec...
A low-IF very compact low power quadrature receiver for ZigBee applications is presented. The receiv...
Predictions of the proliferation of hundreds of billions of connected wireless devices have yet to c...
In the design of a single chip for wireless-sensor-network and WPAN applications (e.g., IEEE 802.15....
We propose a Low Noise Amplifier (LNA) architecture for power scalable receiver front end (FE) for Z...
Portable wireless devices have been the heat of demands in recent years for many applications such a...
Minimizing the dissipated power of RF transceivers is the primarily target to meet the requirements ...
This article presents the theory and implementation of a quadrature and differential RF front-end re...
Two very compact and low power quadrature receivers for ZigBee applications are presented. Area and ...
The thorough analysis and the design of a complete 2.2 GHz quadrature receiver front-end suited for ...
This paper presents the first quadrature RF receiver front-end where, in a single stage, low-noise a...
Abstract—The thorough analysis and the design of a complete 2.2 GHz quadrature receiver front-end su...
This paper presents the first quadrature RF receiver front-end where, in a single stage, low-noise a...
This paper presents the first quadrature RF receiver front-end where, in a single stage, low-noise a...
The mass production of integrated circuits for digital electronics has made CMOS technology the most...
With the proliferation of wireless standards and frequency bands, the manufacturers of consumer elec...
A low-IF very compact low power quadrature receiver for ZigBee applications is presented. The receiv...
Predictions of the proliferation of hundreds of billions of connected wireless devices have yet to c...
In the design of a single chip for wireless-sensor-network and WPAN applications (e.g., IEEE 802.15....
We propose a Low Noise Amplifier (LNA) architecture for power scalable receiver front end (FE) for Z...
Portable wireless devices have been the heat of demands in recent years for many applications such a...
Minimizing the dissipated power of RF transceivers is the primarily target to meet the requirements ...
This article presents the theory and implementation of a quadrature and differential RF front-end re...
Two very compact and low power quadrature receivers for ZigBee applications are presented. Area and ...
The thorough analysis and the design of a complete 2.2 GHz quadrature receiver front-end suited for ...
This paper presents the first quadrature RF receiver front-end where, in a single stage, low-noise a...
Abstract—The thorough analysis and the design of a complete 2.2 GHz quadrature receiver front-end su...
This paper presents the first quadrature RF receiver front-end where, in a single stage, low-noise a...
This paper presents the first quadrature RF receiver front-end where, in a single stage, low-noise a...
The mass production of integrated circuits for digital electronics has made CMOS technology the most...
With the proliferation of wireless standards and frequency bands, the manufacturers of consumer elec...
A low-IF very compact low power quadrature receiver for ZigBee applications is presented. The receiv...
Predictions of the proliferation of hundreds of billions of connected wireless devices have yet to c...