Title :
An investigation of device instabilities arising from the encapsulation material and composition
Author :
Gasner, John ; Ito, Akira ; Nowak, Romuald
Author_Institution :
Harris Semicond. Sector, Melbourne, FL, USA
Abstract :
Two factorial experiments were designed to identify process variables and material compositions for improving hot-carrier-induced MOSFET device instability. The first experiment was designed to identify what factors related to the passivation process are most important. The second experiment concentrated on the composition and thickness of the double-layer nitride-oxide passivation. The results indicate that improvement is achieved by adding an oxide layer under the plasma silicon nitride and performing a sinter prior to the nitride deposition rather than afterwards. The most significant factors were the nitride composition, the thickness of the oxide layer, and the sinter atmosphere
Keywords :
MOS integrated circuits; circuit reliability; encapsulation; hot carriers; insulated gate field effect transistors; passivation; sintering; stability; MOSFET; MOSIC; Si3N4-SiO2; VLSI; device instabilities; double-layer nitride-oxide passivation; encapsulation material; hot-carrier-induced; material compositions; nitride deposition; oxide layer thickness; passivation process; plasma Si3N4 layer; process variables; sinter atmosphere; Atmosphere; Composite materials; Degradation; Electrons; Encapsulation; Passivation; Semiconductor materials; Stress; Substrates; Voltage;
Conference_Titel :
VLSI Multilevel Interconnection Conference, 1990. Proceedings., Seventh International IEEE
Conference_Location :
Santa Clara, CA
DOI :
10.1109/VMIC.1990.127895
