Analysis of ESD failure mechanism in 65nm bulk CMOS ESD NMOSFETs with ESD implant

Electrical and SEM analysis of gate-silicided (GS) ESD NMOSFETs in a 65nm bulk CMOS technology show that the failure mechanism changes from source-to-drain filamentation to drain-to-substrate short when a p-type ESD implant (ED) is used. Simulations show that the reason for change in failure mode is the different current and temperature distribution when the device is operated in bipolar mode due to the presence of ED. The size of the drain silicide blocking can be reduced from 3 to 0.75 μm by the use of ED while keeeping the same ESD failure current with the corresponding area saving benefit. When the ED implant extends under the drain contacts, the on-resistance (Ron) of the device can be reduced by ∼50% with respect to a design where ED is not located under the contacts.

[1]  C. Duvvury,et al.  Dynamic gate coupling of NMOS for efficient output ESD protection , 1992, 30th Annual Proceedings Reliability Physics 1992.

[2]  M. Wendel,et al.  Tunable bipolar transistor for ESD protection of HV CMOS applications , 2006, 2006 Electrical Overstress/Electrostatic Discharge Symposium.

[3]  C.C. Russ,et al.  Wafer cost reduction through design of high performance fully silicided ESD devices , 2000, Electrical Overstress/Electrostatic Discharge Symposium Proceedings 2000 (IEEE Cat. No.00TH8476).

[4]  Charvaka Duvvury,et al.  Substrate triggering and salicide effects on ESD performance and protection circuit design in deep submicron CMOS processes , 1995, Proceedings of International Electron Devices Meeting.

[5]  M. Muhammad,et al.  Evaluation of diode-based and NMOS/Lnpn-based ESD protection strategies in a triple gate oxide thickness 0.13 µm CMOS logic technology , 2001, 2001 Electrical Overstress/Electrostatic Discharge Symposium.

[6]  R. Gauthier,et al.  Analysis of Failure Mechanism on Gate-Silicided and Gate-Non-Silicided, Drain/Source Silicide-blocked ESD NMOSFETs in a 65nm Bulk CMOS Technology , 2006, 2006 13th International Symposium on the Physical and Failure Analysis of Integrated Circuits.

[7]  R. Gauthier,et al.  TLP systems with combined 50- and 500-/spl Omega/ impedance probes and Kelvin probes , 2005, IEEE Transactions on Electronics Packaging Manufacturing.

[8]  R. Gauthier,et al.  TLP systems with combined 50 and 500-ohm impedance probes and kelvin probes , 2003, 2003 Electrical Overstress/Electrostatic Discharge Symposium.

[9]  Mu-Chun Wang,et al.  ESD protection for the tolerant I/O circuits using PESD implantation , 2002 .