| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 546937 | Microelectronics Reliability | 2014 | 5 Pages |
•We measured low and high doping UTBB SOI nMOSFETs at room and elevated temperature.•We compared HCS reliability of PDSOI and FDSOI.•Low off-current leakage but high degradation with HCS and PBTI on high-doped UTBB SOI nMOS.•Degradation is dependent on elevated temperature rather than increasing stress time.•PDSOI induces a higher trap density than FDSOI under HCS.
This study compares the reliability of nMOSFETs with low- and high-doped ultra-thin body and buried oxide (UTBB) with fully depleted (FD) and partially depleted (PD) silicon on insulator (SOI). The high-doped devices display lower off-current leakage performance but more degradation in both hot-carrier stress (HCS) and positive bias temperature instability (PBTI) test at both room temperature and elevated temperature compared with the low-doped devices. The PBTI test indicates that the high-doped devices induce high tunneling leakage and that the degradation is highly associated with temperature. The degradation stabilizes with an increase in stress time. The thinner PD-SOI demonstrates low variation at the threshold voltage and low drive current under HCS. The FD-SOI has better drain leakage control than the PD-SOI.
