Title :
Analog Circuit Design Methodologies to Improve Negative-Bias Temperature Instability Degradation
Author :
Ghosh, Amlan ; Franklin, Rob ; Brown, Richard B.
Author_Institution :
Univ. of Utah, Salt Lake City, UT, USA
Abstract :
Negative-bias temperature instability (NBTI) has become one of the major sources of performance degradation in scaled PMOS devices, affecting the threshold voltages of the devices, which in turn affects yield and lifetime reliability as well as the power consumption and performance of circuits. Hence, it has become necessary to understand and reduce the impact of NBTI on PMOS devices. This paper identifies the characteristic of PMOS stresses in differential pairs. Two techniques are proposed for improving performance in the face of NBTI-switching the inputs of the differential transistors, and body-bias modulation based on offset in the common mode output. Simulation results are described. Both techniques bring the offset voltage to a very low value. The body biasing technique improves the output characteristic transition window width from 0.11 V to 0.02 V.
Keywords :
CMOS analogue integrated circuits; circuit stability; integrated circuit design; integrated circuit reliability; CMOS; NBTI; analog circuit design methodologies; body-bias modulation; common mode output; differential transistors; lifetime reliability; negative-bias temperature instability degradation; offset voltage; power consumption; scaled PMOS devices; threshold voltages; transition window width; voltage 0.02 V; Analog circuits; Degradation; Design methodology; Energy consumption; MOS devices; Niobium compounds; Stress; Temperature; Threshold voltage; Titanium compounds; NBTI; analog circuit design methodologies; body biasing.; input switching;
Conference_Titel :
VLSI Design, 2010. VLSID '10. 23rd International Conference on
Conference_Location :
Bangalore
Print_ISBN :
978-1-4244-5541-6
DOI :
10.1109/VLSI.Design.2010.69
