Degradation of NMOSFETs during high-field injection with reverse biased voltage at source and drain junctions
Document Type
Conference Proceeding
Publication Date
1-1-2001
Abstract
Degradation to threshold voltage Vt and transconductance gm of n-channel MOSFETs due to reverse biased potential at source and drain junctions during high-field electron injection were studied. Both gate injection and substrate injection modes were used to estimate initial oxide traps and breakdown characteristics. During gate injection, stress induced Vt and gm shifts show minimal dependence on the reverse biased floating voltage whereas during substrate injection Vt shifts linearly depend on the floating reverse biased voltage and gm shifts show minimal dependence. An asymmetry in the distribution of electron traps at the gate-oxide and substrate-oxide interfaces was observed. For gate injection the oxide field at breakdown is higher than substrate injection and these field values are independent of reverse biased voltage. Charge to breakdown decreases with reverse biased voltage for gate injection and increases for substrate injection. Moreover, charge to breakdown values for gate injections are smaller than substrate injection.
Identifier
0034996825 (Scopus)
Publication Title
Proceedings of the IEEE International Conference on VLSI Design
First Page
485
Last Page
490
Recommended Citation
Jarwal, R. K. and Misra, D., "Degradation of NMOSFETs during high-field injection with reverse biased voltage at source and drain junctions" (2001). Faculty Publications. 15279.
https://digitalcommons.njit.edu/fac_pubs/15279
