In this work, the effect of digital CMOS technology down scaling on the performances of MOS Current Mode Logic frequency dividers is addressed. A fast and effective methodology to design the dividers is presented. The insight given by the methodology is then exploited to study the down scaling of MCML dividers by considering two CMOS technologies representative of the 130 nm and 90 nm technology nodes. The model provides quantitatively accurate predictions of the advantages of scaling on current consumption and maximum frequency of operation
Abstract—A 32:1 static frequency divider consisting of five stages of 2:1 dividers using current mod...
In this paper, analytical models of the static and dynamic behavior of MOS Current-Mode Logic (MCML)...
A novel approach for implementing MOS current-mode logic (MCML) circuits that can operate with ultra...
In this work, the effect of digital CMOS technology down scaling on the performances of MOS Current ...
A strategy to design high-speed low-power MOS Current-Mode Logic (MCML) static frequency dividers is...
A methodology to design high-speed power-efficient MOS Current-Mode Logic (MCML) static frequency di...
Two frequency divider architectures in the Folded MOS Current Mode Logic which allow to operate at u...
In this paper a low-voltage, high speed frequency divider architecture exploiting the Folded MOS Cu...
In this article, a static frequency divider based on folded MOS current mode logic (FMCML) is presen...
MOS current mode logic (MCML) in sub-threshold operation is explored for the purpose of ultra low po...
In the last years, MOS Current-Mode Logic (MCML) circuits are gaining a remarkable interest in sever...
The objective of this project is to design current mode logic (CML) frequency divider in CMOS techno...
The analysis and design of two novel high-speed CMOS clock dividers is discussed. The realizations o...
Current-mode-logic circuits play an important role in the design of CMOS frequency synthesizers for ...
This paper describes modification of conventional CML gates as used in frequency dividers by replaci...
Abstract—A 32:1 static frequency divider consisting of five stages of 2:1 dividers using current mod...
In this paper, analytical models of the static and dynamic behavior of MOS Current-Mode Logic (MCML)...
A novel approach for implementing MOS current-mode logic (MCML) circuits that can operate with ultra...
In this work, the effect of digital CMOS technology down scaling on the performances of MOS Current ...
A strategy to design high-speed low-power MOS Current-Mode Logic (MCML) static frequency dividers is...
A methodology to design high-speed power-efficient MOS Current-Mode Logic (MCML) static frequency di...
Two frequency divider architectures in the Folded MOS Current Mode Logic which allow to operate at u...
In this paper a low-voltage, high speed frequency divider architecture exploiting the Folded MOS Cu...
In this article, a static frequency divider based on folded MOS current mode logic (FMCML) is presen...
MOS current mode logic (MCML) in sub-threshold operation is explored for the purpose of ultra low po...
In the last years, MOS Current-Mode Logic (MCML) circuits are gaining a remarkable interest in sever...
The objective of this project is to design current mode logic (CML) frequency divider in CMOS techno...
The analysis and design of two novel high-speed CMOS clock dividers is discussed. The realizations o...
Current-mode-logic circuits play an important role in the design of CMOS frequency synthesizers for ...
This paper describes modification of conventional CML gates as used in frequency dividers by replaci...
Abstract—A 32:1 static frequency divider consisting of five stages of 2:1 dividers using current mod...
In this paper, analytical models of the static and dynamic behavior of MOS Current-Mode Logic (MCML)...
A novel approach for implementing MOS current-mode logic (MCML) circuits that can operate with ultra...