Title :
Full-swing logic circuits in a complementary BiCMOS technology
Abstract :
It has been demonstrated that full-swing complementary MOS/bipolar logic (FS-CMBL) circuits utilizing a push-pull emitter-follower driver and base-emitter shunting to achieve full swing are potentially advantageous for scaled BiCMOS technologies. In these circuits, delay and power consumption depend on characteristics of the base-to-base clamping diode, parasitic capacitances at the two base nodes, and techniques used to achieve full swing. Variations of full-swing complementary circuits utilizing different clamping diodes and full-swing techniques, implemented in a full-complementary BiCMOS technology, are presented. The FS-CMBL circuits demonstrate a clear advantage over the conventional npn-only, partial-swing BiCMOS circuit
Keywords :
BIMOS integrated circuits; integrated circuit technology; integrated logic circuits; FS-CMBL circuits; base-emitter shunting; base-to-base clamping diode; complementary BiCMOS technology; full-swing complementary MOS/bipolar logic; parasitic capacitances; power consumption; push-pull emitter-follower driver; scaled BiCMOS technologies;
Conference_Titel :
VLSI Circuits, 1990. Digest of Technical Papers., 1990 Symposium on
Conference_Location :
Honolulu, Hawaii, USA
DOI :
10.1109/VLSIC.1990.111109
