Modern and future ultra-deep-submicron (UDSM) technologies introduce several new problems in analog design. Nonlinear output conductance in combination with reduced voltage gain pose limits in linearity of (feedback) circuits. Gate-leakage mismatch exceeds conventional matching tolerances. Increasing area does not improve matching any more, except if higher power consumption is accepted or if active cancellation techniques are used. Another issue is the drop in supply voltages. Operating critical parts at higher supply voltages by exploiting combinations of thin- and thick-oxide transistors can solve this problem. Composite transistors are presented to solve this problem in a practical way. Practical rules of thumb based on measurements are...
Abstract—Due to device and voltage scaling scenarios for present and future deep-submicron CMOS tech...
The paper brings an overview of main challenges and design techniques effectively applicable for ult...
The ability to do mixed-signal IC design in a CMOS technology has been a driving force for manufactu...
MOS transistors with sub 100 nm channel lengths need a gate oxide thickness in the range of 1-2 nm t...
CMOS evolution introduces several problems in analog design. Gate-leakage mismatch exceeds conventio...
CMOS evolution introduces several problems in analog design. Gate-leakage mismatch exceeds matching ...
In this paper an overview on the main issues in analog IC design in scaled CMOS technology is presen...
The design of analog integrated circuits together with mixed-signal applications in deep sub-micron ...
Shrinking process feature size has promoted the system-on-a-chip concept. Combining analog and RF ci...
Higher speed and higher density are the main thrusts of CMOS technology and are achieved by device m...
High leakage current in deep sub-micron regimes is becoming a significant contributor to power dissi...
Based on the analysis of 65 nm MOSFETs characteristics with regards to analog design requirements, t...
The ubiquity of mobile computing devices and the ever increasing internet usage in recent years have...
The emerging nanoscale technologies inherently offer transistors working with low voltage levels and...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
Abstract—Due to device and voltage scaling scenarios for present and future deep-submicron CMOS tech...
The paper brings an overview of main challenges and design techniques effectively applicable for ult...
The ability to do mixed-signal IC design in a CMOS technology has been a driving force for manufactu...
MOS transistors with sub 100 nm channel lengths need a gate oxide thickness in the range of 1-2 nm t...
CMOS evolution introduces several problems in analog design. Gate-leakage mismatch exceeds conventio...
CMOS evolution introduces several problems in analog design. Gate-leakage mismatch exceeds matching ...
In this paper an overview on the main issues in analog IC design in scaled CMOS technology is presen...
The design of analog integrated circuits together with mixed-signal applications in deep sub-micron ...
Shrinking process feature size has promoted the system-on-a-chip concept. Combining analog and RF ci...
Higher speed and higher density are the main thrusts of CMOS technology and are achieved by device m...
High leakage current in deep sub-micron regimes is becoming a significant contributor to power dissi...
Based on the analysis of 65 nm MOSFETs characteristics with regards to analog design requirements, t...
The ubiquity of mobile computing devices and the ever increasing internet usage in recent years have...
The emerging nanoscale technologies inherently offer transistors working with low voltage levels and...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
Abstract—Due to device and voltage scaling scenarios for present and future deep-submicron CMOS tech...
The paper brings an overview of main challenges and design techniques effectively applicable for ult...
The ability to do mixed-signal IC design in a CMOS technology has been a driving force for manufactu...