Title :
The influence of TiN ARC thickness on stress-induced void formation in tungsten-plug vias
Author_Institution :
Digital Semicond., South Queensferry, UK
fDate :
12/1/1997 12:00:00 AM
Abstract :
This paper describes a new failure mechanism in W-plug vias, and the process conditions which enhance it. For submicron technologies, the limiting factor in interconnect reliability performance is increasingly dominated by the electromigration resistance of tungsten-plug vias. We have observed that under certain experimental conditions, early electromigration failures can be induced in via-chain test structures. We have demonstrated that these are caused by stress-induced void formation in the metal line immediately beneath the tungsten plug. This is thought to be due to highly localized film stress around the base of the plug, which can be minimized by increasing the thickness of the TiN anti-reflective coating (ARC). This has the effect of reducing the incidence of early failure by suppressing the stress-induced failures
Keywords :
antireflection coatings; electromigration; failure analysis; integrated circuit interconnections; integrated circuit metallisation; integrated circuit reliability; internal stresses; stress effects; titanium compounds; tungsten; voids (solid); TiN; TiN anti-reflective coating; TiN thickness; W; W-plug vias; early electromigration failures; electromigration resistance; failure mechanism; highly localized film stress; interconnect reliability performance; metal line; process conditions; stress-induced void formation; submicron technologies; via-chain test structures; Aluminum; Automatic testing; Coatings; Current density; Electromigration; Plugs; Stress; System testing; Tin; Tungsten;
Journal_Title :
Electron Devices, IEEE Transactions on
