A delay model and optimization method of a low-power BiCMOS logic circuit

A delay model and optimization method of a low-power BiCMOS logic circuit

A new delay model and optimization method is proposed for a low-power BiCMOS driver. A transient overdrive, base directly-tied complementary BiCMOS logic circuit operates faster than conventional BiCMOS and CMOS circuits for supply voltage down to 1.5 V by using a speed-power-area optimization appro...

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Veröffentlicht in:IEEE journal of solid-state circuits 1994-10, Vol.29 (10), p.1191-1199
Hauptverfasser: Shayan Zhang, Kalkur, T.S., Lee, S., Gatza, L.
Format: Artikel
Sprache:eng
Schlagworte:
BiCMOS integrated circuits
Circuit simulation
CMOS logic circuits
CMOS technology
Delay effects
Driver circuits
Logic circuits
Optimization methods
Semiconductor device modeling
Voltage
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Zusammenfassung:A new delay model and optimization method is proposed for a low-power BiCMOS driver. A transient overdrive, base directly-tied complementary BiCMOS logic circuit operates faster than conventional BiCMOS and CMOS circuits for supply voltage down to 1.5 V by using a speed-power-area optimization approach. An analytical delay expression is derived for the first time for a full-swing BiCMOS circuit with short-channel effects. The circuit is simulated with a HSPICE model using 0.8-/spl mu/m BiCMOS technology with a 6-GHz n-p-n and a 1-GHz p-n-p transistor. The simulation results have verified the analytical results and demonstrated that the circuit can work up to 200 MHz operating frequency for a load capacitance of 1 pF at 1.5 V of supply voltage.< >
ISSN:0018-9200
1558-173X
DOI:10.1109/4.315202