Title :
Improvement of endurance to hot carrier degradation by hydrogen blocking P-SiO
Author :
Yoshida, S. ; Okuyama, K. ; Kanai, F. ; Kawate, Y. ; Motoyoshi, M. ; Katto, H.
Author_Institution :
Hitachi Ltd., Tokyo, Japan
Abstract :
The authors report on the improvement of the hot-carrier instability of MOSFETs by putting a plasma silicon oxide (P-SiO) of specific composition between the MOSFETs and the plasma silicon nitride (P-SiN) passivation layer. The P-SiO was found to have the capability of completely blocking hydrogen diffusion and water penetration. The hydrogen-blocking effect is attributed to hydrogen trapping by the dangling bonds in P-SiO. The thickness of the P-SiO film was found to be an important factor in the blocking effect. A passivation structure with P-SiO film under P-SiN thus offers protection against hot-carrier degradation, water penetration, and chip cracking.<>
Keywords :
hot carriers; insulated gate field effect transistors; passivation; semiconductor technology; silicon compounds; sputtered coatings; H blocking; H/sub 2/O blocking; MOSFETs; SiN-SiO-Si; chip cracking prevention; dangling bonds; endurance to hot carrier degradation; hot-carrier instability; passivation structure; plasma SiN over plasma SiO film; protection against hot-carrier degradation; Degradation; Hot carriers; Hydrogen; MOSFET circuits; Passivation; Plasma applications; Plasma devices; Silicon; Stress; Very large scale integration;
Conference_Titel :
Electron Devices Meeting, 1988. IEDM '88. Technical Digest., International
Conference_Location :
San Francisco, CA, USA
DOI :
10.1109/IEDM.1988.32740
