Mixed Operating Mode of CMOS Digital Circuits

Mixed Operating Mode of CMOS Digital Circuits

Novel precise limitations and terms of CMOS digital logic circuits operation modes are proposed. These are not to be confused with the transistor operating modes, i.e. inversion regions. As already known, if the circuit's supply voltage, V dd , is lower than the transistor threshold voltage, V...

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Bibliographic Details
Published in:2018 International Symposium on Industrial Electronics (INDEL) pp. 1 - 5
Main Authors: Dokic, Branko L., Pajkanovic, Aleksandar
Format: Conference Proceeding
Language:English
Published: IEEE 01-11-2018
Subjects:
above double threshold mode
CMOS standard digital circuits
Digital circuits
dissipation
Inverters
Manganese
mixed mode
MOSFET
strong inversion
sub-threshold
Threshold voltage
weak inversion
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Summary:Novel precise limitations and terms of CMOS digital logic circuits operation modes are proposed. These are not to be confused with the transistor operating modes, i.e. inversion regions. As already known, if the circuit's supply voltage, V dd , is lower than the transistor threshold voltage, V tn or V tp , the circuit operates in the sub-threshold mode. For the supply voltage ranges of V tn <V dd <V tn +|V tp | and V dd >V tn +|V tp | the terms mixed operating mode and above double threshold operating mode are proposed. It is shown that the analytical models of switching threshold and dissipation due to direct-path current of an inverter operating in the mixed mode are equal to those in sub-threshold mode. Further, rise and fall times of the inverter operating in the mixed mode, are modeled by the same equations used in the above double threshold regime. Within this paper, it is also shown that the minimum of power-delay product is found around the mixed mode midpoint. A tabular review of analytical models of basic inverter parameters in all three CMOS operating regimes is given.
DOI:10.1109/INDEL.2018.8637646