Title :
Physical mechanism and device simulation on transient-induced latchup in CMOS ICs under system-level ESD test
Author :
Ker, Ming-Dou ; Hsu, Sheng-Fu
Author_Institution :
Nanoelectronics & Gigascale Syst. Lab., Nat. Chiao-Tung Univ., Hsinchu, Taiwan
Abstract :
The physical mechanism of transient-induced latchup (TLU) in CMOS ICs under the system-level electrostatic discharge (ESD) test is clearly characterized by device simulation and experimental verification in time domain. For TLU characterization, an underdamped sinusoidal voltage stimulus has been clarified as the realistic TLU-triggering stimulus under the system-level ESD test. The specific "sweep-back" current caused by the minority carriers stored within the parasitic pnpn structure of CMOS ICs has been qualitatively proved to be the major cause of TLU. All the simulation results on TLU have been practically verified in silicon with test chips fabricated by 0.25-μm CMOS technology.
Keywords :
CMOS integrated circuits; circuit simulation; electrostatic discharge; integrated circuit testing; time-domain analysis; 0.25 micron; CMOS IC; ESD test; holding voltage; minority carriers; physical mechanism; silicon controlled rectifier; sweep-back current; system-level electrostatic discharge; time domain analysis; transient-induced latchup; underdamped sinusoidal voltage stimulus; CMOS logic circuits; CMOS technology; Electrostatic discharge; MOS devices; Pins; Power supplies; Silicon; System testing; Thyristors; Voltage; Holding voltage; latchup; silicon controlled rectifier (SCR); system-level electrostatic discharge (ESD) test; transient-induced latchup (TLU);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2005.852728
