Title :
Modeling MOS snapback for circuit-level ESD simulation using BSIM3 and VBIC models
Author :
Zhou, Yuanzhong ; Connerney, Duane ; Carroll, Ronald ; Luk, Timwah
Author_Institution :
Fairchild Semicond., South Portland, ME, USA
Abstract :
A novel macro model approach for modeling ESD MOS snapback is introduced. The macro model consists of standard components only. It includes a MOS transistor modeled by BSIM3v3, a bipolar transistor modeled by VBIC, and a resistor for substrate resistance. No external current source, which is essential in most publicly reported macro models, is included since both BSIM3vs and VBIC have formulations built in to model the relevant effects. The simplicity of the presented macro model makes behavior languages, such as Verilog-A, and special ESD equations not necessary in model implementation. This offers advantages of high simulation speed, wider availability, and less convergence issues. Measurement and simulation of the new approach indicates that good silicon correlation can be achieved.
Keywords :
MOS integrated circuits; bipolar transistor circuits; circuit simulation; electrostatic discharge; integrated circuit design; resistors; BSIM3v3; MOS snapback; MOS transistor; VBIC; bipolar transistor; circuit-level ESD simulation; macro model; modeling; resistor; substrate resistance; Availability; Bipolar transistors; Circuit simulation; Convergence; Electrostatic discharge; Equations; Hardware design languages; MOSFETs; Resistors; Silicon;
Conference_Titel :
Quality of Electronic Design, 2005. ISQED 2005. Sixth International Symposium on
Print_ISBN :
0-7695-2301-3
DOI :
10.1109/ISQED.2005.81
