Title :
Area-Efficient ESD Clamp Circuit With a Capacitance-Boosting Technique to Minimize Standby Leakage Current
Author :
Altolaguirre, Federico A. ; Ming-Dou Ker
Author_Institution :
Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan
Abstract :
This paper presents a new RC-based power-rail electrostatic discharge (ESD) clamp circuit, which achieves ultra-low leakage current while maintaining low silicon utilization. A capacitance-boosting technique is used in conjunction with mathematical analysis of area utilization to determine the best set of parameters to achieve the smallest implementation area in silicon. The proposed power-rail ESD clamp circuit has been verified in a 65-nm general-purpose CMOS process, which achieves an ultra-low standby leakage current of 80 nA at 25 °C under 1-V bias, as well as ESD robustness of a 4-kV human body model and a 250-V machine model with a silicon area of only 45 μm × 17 μm.
Keywords :
CMOS integrated circuits; RC circuits; electrostatic discharge; leakage currents; mathematical analysis; RC-based power-rail electrostatic discharge clamp circuit; area utilization; area-efficient ESD clamp circuit; capacitance-boosting technique; current 80 nA; general-purpose CMOS process; human body model; low silicon utilization; mathematical analysis; size 65 nm; standby leakage current minimization; ultra-low standby leakage current; voltage 250 V; voltage 4 kV; Capacitance; Capacitors; Clamps; Electrostatic discharges; Leakage currents; Logic gates; Thyristors; ESD Protection; ESD protection; Electrostatic Discharge; Electrostatic discharge (ESD); Leakage; Power Rail; leakage; power rail;
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2015.2407572
