Title :
Off-State Stress Degradation Analysis and Optimization for the High-Voltage SOI-pLEDMOS With Thick Gate Oxide
Author :
Siyang Liu ; Weifeng Sun ; Rongxia Zhu ; Tingting Huang ; Chunwei Zhang
Author_Institution :
Nat. ASIC Syst. Eng. Res. Center, Southeast Univ., Nanjing, China
Abstract :
In this paper, the off-state stress degradation for the high-voltage p-type lateral extended drain MOS (pLEDMOS) based on the silicon-on-insulator (SoI) substrate with the thick gate oxide has been investigated experimentally. It shows that, during the stress, there are interface states and negative oxide-trapped charges at the polygate terminal region, but the negative oxide-trapped charges are identified to be the main degradation mechanism. In addition, because the difference of the depletion widths leads to different current paths depth under two monitor conditions, it has been observed that the degradation of the saturation drain current (Idsat) is always much more serious than that of the linear drain current (Idlin). Finally, a novel SoI-pLEDMOS transistor with a reversed doped HV-N-well has been presented to optimize the off-state degradation.
Keywords :
CMOS integrated circuits; circuit optimisation; interface states; power MOSFET; power integrated circuits; silicon-on-insulator; SoI-pLEDMOS transistor; current paths depth; degradation mechanism; depletion widths; high-voltage SOI-pLEDMOS; high-voltage p-type lateral extended drain MOS; interface states; linear drain current; negative oxide trapped charges; off-state stress degradation analysis; off-state stress degradation optimization; polygate terminal region; reversed doped HV-N-well; saturation drain current; silicon-on-insulator substrate; thick gate oxide; Degradation; Fabrication; Impact ionization; Interface states; Logic gates; Stress; $p$-type lateral extended drain MOS (pLEDMOS); Off-state degradation; silicon-on-insulator (SoI); thick gate oxide;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2280290
