Title :
Analysis of hot-carrier degradation in 0.25-μm surface-channel pMOSFET devices
Author :
Liu, Chum H. ; Chen, M.G. ; Huang-Lu, Shiang ; Chang, Y.J. ; Fu, K.Y.
Author_Institution :
United Microelectron. Corp., Hsin-Chu City, Taiwan
Abstract :
Three conventional hot-carrier (HC) stress conditions (i.e. stress at Vgs≈Vth, Vgs≈Vds/2, and Vgs≈Vds) have been studied for a quarter-micrometer level surface-channel pMOSFET devices. It is shown that stress at Vgs≈Vth results in the worst-case damage, in which a “turn-around” behavior for device parameters (such as Idsat, Vth, and gm) has been observed (this is not seen in 0.35-μm or longer p-channel devices to the best of our knowledge). This turnaround behavior could be explained by a two-step degradation model (i.e. electron trapping and charge compensation between electron trapping and interface-state generation). Moreover, similar to long-channel pMOSFET devices though the dominant degradation mechanism is somewhat different, DC device lifetime for 0.25-μm pMOSFET devices should be evaluated using gate current as a predictor rather than substrate current that has been suggested by some researchers
Keywords :
MOSFET; charge compensation; electron traps; hot carriers; interface states; semiconductor device models; semiconductor device reliability; 0.25 mum; DC device lifetime; charge compensation; electron trapping; gate current; hot-carrier degradation; hot-carrier stress conditions; interface-state generation; surface-channel pMOSFET devices; turn-around behavior; two-step degradation model; Cause effect analysis; Degradation; Electron traps; Hot carrier effects; Hot carriers; Interface states; MOSFET circuits; Stress;
Conference_Titel :
VLSI Technology, Systems, and Applications, 1999. International Symposium on
Conference_Location :
Taipei
Print_ISBN :
0-7803-5620-9
DOI :
10.1109/VTSA.1999.786005
