Title :
ESD protection design for mixed-power domains in 90nm CMOS with new efficient power clamp and GND current trigger (GCT) technique
Author_Institution :
Core Dev. Div., NEC Electron. Corp., Kawasaki, Japan
Abstract :
This paper presents an ESD protection design scheme for mixed-power domains in narrow ESD design window with ultra-thin gate oxides. Using a grounded gate (gg)NMOS-based clamp with contact ballast (CTB) layout technique, a factor of 3X area reduction can be achieved for MM protection of a 1.6 nm gate oxide compared to a conventional silicide-block ESD scheme. To expand the design window, a novel ground current trigger (GCT) technique using current sensing circuit between different GND busses is proposed. 7 kV HBM and 550 V MM can be achieved with a 2nd clamp with GCT technique, with the same area as a conventional snapback protection device. The GCT technique is also effective for SCR trigger element as cross clamp.
Keywords :
CMOS integrated circuits; SPICE; electrostatic discharge; failure analysis; system-on-chip; trigger circuits; CMOS; ESD protection design; GND current trigger technique; Spice simulation; contact ballast layout technique; conventional snapback protection device; current sensing circuit; distributed power clamp; failure analysis; grounded gate NMOS-based clamp; mixed-power domains; power clamp; silicide-block ESD scheme; size 1.6 nm; size 90 nm; ultrathin gate oxides; voltage 550 V; voltage 7 kV; wiring resistance; Breakdown voltage; Circuits; Clamps; Diodes; Electrostatic discharge; MOSFETs; National electric code; Protection; Stress; Wiring;
Conference_Titel :
Electrical Overstress/Electrostatic Discharge Symposium, 2006. EOS/ESD '06.
Conference_Location :
Anaheim, CA
Print_ISBN :
978-1-5853-7115-0
