Title :
Edge effect under temperature bias stress of 0.18 μm PMOS technology
Author :
Sekhar, D. Chandra ; Ray, Partha Pratim ; De Souza, M.M. ; Chaparala, Prasad
Author_Institution :
Emerging Technol. Res. Centre, De Montfort Univ., Leicester, UK
Abstract :
Edge effects under positive and negative bias temperature stress (PBTI and NBTI) of 0.18 μm PMOS technology are quantified in terms of the parasitic source-drain series resistance. For the first time it is demonstrated that the series resistance degradation under NBTI is channel length independent although the shift in absolute parameter change increases with reducing channel length. Under NBTI the threshold voltage shifts towards more negative values. The damage mechanism is predominantly by donor type interface states, with a minor contribution of bulk traps. Under PBTI, damage in the centre of the channel, attributed to electron traps causes a shift in threshold voltage towards more positive values, whereas donor type interface states generated towards the edge of the channel contribute to a minor increase in series resistance. PBTI causes lesser damage in comparison to NBTI.
Keywords :
MOSFET; semiconductor device breakdown; semiconductor device reliability; semiconductor device testing; 0.18 μm PMOS technology; 0.18 micron; absolute parameter change; bulk traps; damage mechanism; donor type interface states; edge effect; parasitic source-drain series resistance; reducing channel length; series resistance degradation; temperature bias stress; threshold voltage; Degradation; Electron traps; Hot carriers; Interface states; MOSFET circuits; Niobium compounds; Stress; Temperature; Threshold voltage; Titanium compounds;
Conference_Titel :
Microelectronics, 2004. 24th International Conference on
Print_ISBN :
0-7803-8166-1
DOI :
10.1109/ICMEL.2004.1314911
