Title :
Design and scaling of BiCMOS circuits
Author_Institution :
Hewlett Packard Lab., Palo Alto, CA, USA
Abstract :
A design procedure for sizing all devices in multi-input BiCMOS gates is presented. The notion of an equivalent inverter is introduced, and the optimal ratio of P to N MOSFETs in this inverter is observed to be a constant dependent only on the technology. The bipolar junction transistors (BJTs) are optimally sized for all multi-input gates using data generated only once for the equivalent inverter. Conventional BiCMOS, BiNMOS and CMOS gates are compared in the context of technology scaling. The conventional BiCMOS gate has a 1.4× advantage over CMOS for Vdd as low as 3.1 V when scaled 0.4-μm devices are used. The BiNMOS gate overcomes the limitation to further scaling of the conventional gate and shows a 1.23-1.45× advantage over CMOS even for 0.25-μm, 2.5-V technology
Keywords :
BiCMOS integrated circuits; VLSI; invertors; 0.25 micron; 0.4 micron; BiNMOS; CMOS gates; MOSFETs; bipolar junction transistors; equivalent inverter; multi-input BiCMOS gates; sizing; technology scaling; BiCMOS integrated circuits; CMOS logic circuits; CMOS technology; Capacitance; Delay; FETs; Inverters; Logic devices; MOSFETs; Voltage;
Conference_Titel :
Computer Design: VLSI in Computers and Processors, 1992. ICCD '92. Proceedings, IEEE 1992 International Conference on
Conference_Location :
Cambridge, MA
Print_ISBN :
0-8186-3110-4
DOI :
10.1109/ICCD.1992.276257
