Title :
Hot-carrier-induced off-state current leakage in submicrometer PMOSFET devices
Author :
Fang, Hao ; Fang, Peng ; Yue, John T.
Author_Institution :
Adv. Micro Devices Inc., Sunnyvale, CA, USA
Abstract :
Hot-carrier-induced off-state leakage (HCIOL) currents were successfully used as a new monitor in characterizing device reliability. HCIOL current increases drastically with reducing channel length, but the stress bias only affects the onset time of HCIOL current. For buried-channel PMOSFET´s, only the HCIOL currents at the reverse measurement configuration were dominant. However, in surface-channel devices, HCIOL currents at both forward and reverse configurations became important. An empirical HCIOL current model was developed to quantify device lifetime as a function of channel length and stress voltage. Estimated lifetime results indicated that HCIOL current will impose a major limit on device reliability especially for deep-submicrometer technology and low power applications.<>
Keywords :
MOSFET; hot carriers; semiconductor device models; semiconductor device reliability; buried-channel PMOSFET; channel length; deep-submicrometer technology; device lifetime; device reliability; empirical HCIOL current model; forward measurement configuration; hot-carrier-induced off-state current leakage; low power applications; reverse measurement configuration; stress bias; submicrometer PMOSFET devices; surface-channel devices; Current measurement; Electron traps; Hot carriers; Life estimation; Lifetime estimation; MOSFET circuits; Monitoring; Stress measurement; Time measurement; Voltage;
Journal_Title :
Electron Device Letters, IEEE
