DocumentCode :
9385
Title :
Fast Ramped Voltage Characterization of Single Trap Bias and Temperature Impact on Time-Dependent 
Variability
Author :
Toledano-Luque, Maria ; Degraeve, Robin ; Roussel, P.J. ; Ragnarsson, Lars-Ake ; Chiarella, T. ; Horiguchi, Naoto ; Mocuta, Anda ; Thean, A.
Author_Institution :
Logic Device Design Group, imec, Leuven, Belgium
Volume :
61
Issue :
9
fYear :
2014
fDate :
Sept. 2014
Firstpage :
3139
Lastpage :
3144
Abstract :
Relentless performance and density scaling of modern CMOS devices has come at the expense of circuit stability and variability. In this paper, we specifically reveal how switching traps can cause intolerable VTH shifts and fluctuations, which are even visible during the ID-VG tracing in nanometer-scaled devices. Exploiting this feature, we have developed a methodology for random telegraph noise assessment capable of determining the capture and emission times τc and τe, and their impact on VTH as a function of gate voltage VG and temperature T. This information is crucial for developing circuit simulators that assess the impact of single traps in the full VG swing and operational temperatures.
Keywords :
MOSFET; negative bias temperature instability; semiconductor device noise; capture times; circuit simulators; circuit stability; circuit variability; density scaling; emission times; fast ramped voltage characterization; gate voltage; modern CMOS devices; nanometer-scaled devices; operational temperatures; random telegraph noise assessment; single trap bias; switching traps; temperature impact; time-dependent VTH variability; Approximation methods; CMOS integrated circuits; Couplings; Electron traps; Logic gates; Substrates; Switches; Bias temperature instability (BTI); CMOS; MOSFET; high- (kappa ); high-κ; random telegraph noise (RTN);
fLanguage :
English
Journal_Title :
Electron Devices, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9383
Type :
jour
DOI :
10.1109/TED.2014.2340699
Filename :
6870474
Link To Document :
