In this paper after studying and analyzing BiCMOS and CMOS logical gates, we have achieved some advanced BiCMOS circuits for the same logical gates. In all of our designs, we used threshold detectors and voltage to current converters. In this new method, some parts of the conventional BiCMOS current-mode circuits have been eliminated without any changes in the logical functionality of the circuits, and some optimum circuits based on this logic family have been introduced. In the proposed circuits, we have obtained considerable speed gain and a remarkable reduction in transistor count.
Navi,K. , Kazemi Parsa,M. and Ghorbannia Delavar,A. (2005). Very High Speed Current-Mode Logical Gates. (e215962). The CSI Journal on Computer Science and Engineering, 3(1), e215962
MLA
Navi,K. , , Kazemi Parsa,M. , and Ghorbannia Delavar,A. . "Very High Speed Current-Mode Logical Gates" .e215962 , The CSI Journal on Computer Science and Engineering, 3, 1, 2005, e215962.
HARVARD
Navi K., Kazemi Parsa M., Ghorbannia Delavar A. (2005). 'Very High Speed Current-Mode Logical Gates', The CSI Journal on Computer Science and Engineering, 3(1), e215962.
CHICAGO
K. Navi, M. Kazemi Parsa and A. Ghorbannia Delavar, "Very High Speed Current-Mode Logical Gates," The CSI Journal on Computer Science and Engineering, 3 1 (2005): e215962,
VANCOUVER
Navi K., Kazemi Parsa M., Ghorbannia Delavar A. Very High Speed Current-Mode Logical Gates. CSIonJCSE, 2005; 3(1): e215962.
The CSI Journal on Computer Science and Engineering