Enhancing the digital controllability of wideband RF transceiver front-ends helps in widening the range of operating conditions and applications in which such systems can be employed. Technology limitations and design challenges often constrain the extensive adoption of digital controllability in RF front-ends. This work focuses on three major aspects associated with the design and implementation of a digitally controllable RF transceiver front-end for enhanced digital control. Firstly, the influence of the choice of semiconductor technology for a system-on-chip integration of digital gain control circuits are investigated. The digital control of gain is achieved by utilizing step attenuators that consist of cascaded switched attenuation s...
The exponential growth of wireless communication in portable device market has been increasing the d...
In this master degree work, a digital attenuator and a low noise amplifier (LNA) have been designed ...
RF circuits for multi-GHz frequencies have recently migrated to low-cost digital deep-submicron CMOS...
Enhancing the digital controllability of wideband RF transceiver front-ends helps in widening the ra...
A digital front-end with digital compensation is designed and implemented for low-complexity 4G radi...
The desire to build lower cost analog front-ends has triggered interest in a new domain of research....
The digital front-end (DFE) is the most critical stage in a wireless base-station. The DFE along wit...
The design and use of multi-standard RF transceivers is the way to increase hardware flexibility and...
The proliferation of portable communication devices combined with the relentless demand for higher d...
The widespread usage of mobile communication in recent decades has crowded the frequency spectrum wi...
The Holy Grail radio receiver architecture for Software Radio makes uses of direct RF digitization. ...
Digitally enhanced wireless transceivers are gaining prominence due to their promise of greater inte...
The design of high performance integrated radio frequency (RF) transmitters (TX) able to meet the co...
Power efficiency, bandwidth, and signal fidelity are critical specs of wireless transmitters, which ...
Radio Frequency (RF) transmitters have long been realized by analog circuitry particularly at the fr...
The exponential growth of wireless communication in portable device market has been increasing the d...
In this master degree work, a digital attenuator and a low noise amplifier (LNA) have been designed ...
RF circuits for multi-GHz frequencies have recently migrated to low-cost digital deep-submicron CMOS...
Enhancing the digital controllability of wideband RF transceiver front-ends helps in widening the ra...
A digital front-end with digital compensation is designed and implemented for low-complexity 4G radi...
The desire to build lower cost analog front-ends has triggered interest in a new domain of research....
The digital front-end (DFE) is the most critical stage in a wireless base-station. The DFE along wit...
The design and use of multi-standard RF transceivers is the way to increase hardware flexibility and...
The proliferation of portable communication devices combined with the relentless demand for higher d...
The widespread usage of mobile communication in recent decades has crowded the frequency spectrum wi...
The Holy Grail radio receiver architecture for Software Radio makes uses of direct RF digitization. ...
Digitally enhanced wireless transceivers are gaining prominence due to their promise of greater inte...
The design of high performance integrated radio frequency (RF) transmitters (TX) able to meet the co...
Power efficiency, bandwidth, and signal fidelity are critical specs of wireless transmitters, which ...
Radio Frequency (RF) transmitters have long been realized by analog circuitry particularly at the fr...
The exponential growth of wireless communication in portable device market has been increasing the d...
In this master degree work, a digital attenuator and a low noise amplifier (LNA) have been designed ...
RF circuits for multi-GHz frequencies have recently migrated to low-cost digital deep-submicron CMOS...