Modular approach of a high current MOS compact model for circuit-level ESD simulation including transient gate coupling behavior

A novel modular strategy for highly flexible modeling of ESD-capable MOS compact models is introduced. These high current MOS models comprise the important gate coupling effect and an approximated formulation for the avalanche multiplication factor. This enormously enhances the computation stability...

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Main Authors: Mergens, M., Wilkening, W., Mettler, S., Wolf, H., Fichtner, W.
Format: Conference Proceeding
Language:English
Subjects:
Circuit simulation
Circuit stability
Computational modeling
Coupling circuits
Electrostatic discharge
Equations
MOSFETs
Protection
Semiconductor device modeling
Voltage
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creator Mergens, M.
Wilkening, W.
Mettler, S.
Wolf, H.
Fichtner, W.
description A novel modular strategy for highly flexible modeling of ESD-capable MOS compact models is introduced. These high current MOS models comprise the important gate coupling effect and an approximated formulation for the avalanche multiplication factor. This enormously enhances the computation stability and performance of the model. An easy but accurate parameter extraction procedure is described. Measurement and simulation of an application example employing the new ESD-model within a CMOS output driver exhibit the relevance of dynamic gate coupling for the ESD reliability of the circuit.
doi_str_mv 10.1109/RELPHY.1999.761609
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ispartof 1999 IEEE International Reliability Physics Symposium Proceedings. 37th Annual (Cat. No.99CH36296), 1999, p.167-178
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Circuit simulation
Circuit stability
Computational modeling
Coupling circuits
Electrostatic discharge
Equations
MOSFETs
Protection
Semiconductor device modeling
Voltage
title Modular approach of a high current MOS compact model for circuit-level ESD simulation including transient gate coupling behavior
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