Title :
Investigations on the thermal behavior of interconnects under ESD transients using a simplified thermal RC network
Author :
Salome, Pascal ; Leroux, Charles ; Crevel, Philippe ; Chante, Jean Pierre
Abstract :
This work focuses on interconnect heating during fast ESD transients. A simplified thermal RC network is used to study the behavior of interconnects and to predict their failures, which can be an open circuit or a latent failure due to the decrease in electromigration lifetime. The RC model is validated by both experiments and finite difference simulations. We observe that the melting of the interconnect system can be considered to be instantaneous. Simulations in both solid and liquid phases of the metal are in good agreement with experiments. Human body model (HBM) and machine model (MM) transients are investigated and a relationship to correlate these ESD stresses with transmission line pulse (TLP) measurements is studied in depth. We show that a square pulse of 80 ns may be used to predict HBM stress and a 45 ns pulse is proposed for MM stress.
Keywords :
circuit simulation; electromigration; electrostatic discharge; failure analysis; finite difference methods; integrated circuit interconnections; integrated circuit measurement; integrated circuit metallisation; integrated circuit modelling; integrated circuit reliability; melting; transient analysis; 45 ns; 80 ns; ESD stresses; ESD transients; HBM stress; HBM transients; MM stress; MM transients; RC model; electromigration lifetime; fast ESD transient; finite difference simulations; human body model transients; interconnect failure; interconnect heating; interconnect system melting; interconnects; latent failure; machine model transients; metal liquid phase simulation; metal solid phase simulation; open circuit; simplified thermal RC network; square pulse; thermal behavior; transmission line pulse measurements; Biological system modeling; Circuit simulation; Electromigration; Electrostatic discharge; Finite difference methods; Heating; Integrated circuit interconnections; Power system transients; Pulse measurements; Stress;
Conference_Titel :
Electrical Overstress/Electrostatic Discharge Symposium Proceedings, 1998
Conference_Location :
Reno, NV, USA
Print_ISBN :
1-878303-91-0
DOI :
10.1109/EOSESD.1998.737038
