A computationally efficient physics-based compact bipolar transistor model for circuit Design-part II: parameter extraction and experimental results - Concepedia

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A computationally efficient physics-based compact bipolar transistor model for circuit Design-part II: parameter extraction and experimental results

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References

2006

Year

Sébastien Frégonèse, Steffen Lehmann, Thomas Zimmer, M. Schröter, D. Céli, Bertrand Ardouin, Helene Beckrich, P. Brenner, W. Kraus

IEEE Transactions on Electron Devices

EngineeringPower ElectronicsComputational MechanicsPhysical Design (Electronics)Numerical SimulationModeling And SimulationComputational ElectromagneticsSpice Gummel-poon ModelCircuit AnalysisDevice ModelingElectrical EngineeringBias Temperature InstabilityComputer EngineeringMicroelectronicsExperimental ResultsCircuit DesignCompact ModelingCircuit Design-part IiParameter ExtractionSige Process TechnologiesParameter Determination ProcedureCircuit SimulationMultiscale Modeling

Abstract

A compact bipolar transistor model was presented in Part I that combines the simplicity of the SPICE Gummel-Poon model (SGPM) with some major features of HICUM. The new model, called HICUM/L0, is more physics-based and accurate than the SGPM but at the same time, from a computational point of view, suitable for simulating large circuits. In Part II, a parameter determination procedure is described and demonstrated for a variety of SiGe process technologies.

References

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