DoctorFirstly, an ultra-low-power fully integrated wide band receiver for WSN using passive mixer-first structure is implemented. The design target of the receiver is ultra-low-power operation with wide band coverage. Fabricated in 28-nm CMOS process, the receiver employs a passive mixer-first RF front-end with zero-IF architecture which is driven by non-overlapping 4-phase local oscillator (LO). To minimize power consumption in LO driving stage which consumes the largest portion of power in this structure, supply voltage and device size optimization techniques are introduced. Enhanced non-overlapping LO circuit is proposed to prevent degradation of the noise figure. The receiver also includes a low power base band amplifier and in-band noi...
In the recent years, progress in wireless technology has required high-quality receiver designs th...
Current advances in wireless receiver technologies are primarily driven by the need for cost reducti...
DoctorAs wireless communication technology advances, new advanced wireless communication standards h...
This letter presents low power implementation of a fully integrated wide band receiver for wireless ...
The recent upsurge in the demand for low-power portable wireless communication products creates a lo...
peer reviewedThis study proposes a wide-band low-power low-noise amplifier (LNA) and switched transc...
This paper presents a 2.4-GHz ISM band ultralow-power receiver with a passive sliding-IF (SIF) mixer...
The scaling of CMOS technologies has a great impact on analog and radio-frequency (RF) circuit desig...
IoT refers to a network of connected devices that exchange data for different applications using dif...
The continued growth in mobile network data traffic, forecast to increase at a compound rate of 54% ...
DoctorAs the wireless communication technology has been rapidly developed, many kinds of mobile comm...
In this article, a CMOS multistandard wireless direct-conversion receiver is designed. The receiver ...
A double balanced passive mixer-based receiver operating in the 3-5 GHz UWB for medical applications...
[[abstract]]This article describes a monolithic receiver front end comprising a low-noise amplifier ...
Minimizing the dissipated power of RF transceivers is the primarily target to meet the requirements ...
In the recent years, progress in wireless technology has required high-quality receiver designs th...
Current advances in wireless receiver technologies are primarily driven by the need for cost reducti...
DoctorAs wireless communication technology advances, new advanced wireless communication standards h...
This letter presents low power implementation of a fully integrated wide band receiver for wireless ...
The recent upsurge in the demand for low-power portable wireless communication products creates a lo...
peer reviewedThis study proposes a wide-band low-power low-noise amplifier (LNA) and switched transc...
This paper presents a 2.4-GHz ISM band ultralow-power receiver with a passive sliding-IF (SIF) mixer...
The scaling of CMOS technologies has a great impact on analog and radio-frequency (RF) circuit desig...
IoT refers to a network of connected devices that exchange data for different applications using dif...
The continued growth in mobile network data traffic, forecast to increase at a compound rate of 54% ...
DoctorAs the wireless communication technology has been rapidly developed, many kinds of mobile comm...
In this article, a CMOS multistandard wireless direct-conversion receiver is designed. The receiver ...
A double balanced passive mixer-based receiver operating in the 3-5 GHz UWB for medical applications...
[[abstract]]This article describes a monolithic receiver front end comprising a low-noise amplifier ...
Minimizing the dissipated power of RF transceivers is the primarily target to meet the requirements ...
In the recent years, progress in wireless technology has required high-quality receiver designs th...
Current advances in wireless receiver technologies are primarily driven by the need for cost reducti...
DoctorAs wireless communication technology advances, new advanced wireless communication standards h...