Analytical modeling of short-circuit energy dissipation in submicron CMOS structures

Analytical modeling of short-circuit energy dissipation in submicron CMOS structures

In this paper, an accurate analytical model for the short-circuit energy dissipation of CMOS logic structures, on the basis of a CMOS inverter, is presented. The derived model is based on analytical expressions of the inverter output waveform which include the influences of both transistor currents...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: Bisdounis, L., Koufopavlou, O.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Analytical models
Capacitance
Circuits
Electronic mail
Energy dissipation
Inverters
Laboratories
Power supplies
Semiconductor device modeling
Very large scale integration
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Beschreibung
Zusammenfassung:In this paper, an accurate analytical model for the short-circuit energy dissipation of CMOS logic structures, on the basis of a CMOS inverter, is presented. The derived model is based on analytical expressions of the inverter output waveform which include the influences of both transistor currents and the gate-to-drain coupling capacitance. Also, the effect of the short-circuiting transistor's gate-source capacitance on the short-circuit energy dissipation, is taken into account. The /spl alpha/-power law MOS model which considers the carriers' velocity saturation effect of submicron devices, is used. The results produced by the suggested model for a commercial 0.8 /spl mu/m process show very good agreement with SPICE simulations (error less than 15% in most cases). After the extension of the inverter model to CMOS gates, the accuracy is maintained at the same level.
DOI:10.1109/ICECS.1999.814495