Noncomplementary BiCMOS logic and CMOS logic for low-voltage, low-power operation-a comparative study

This paper presents results of a comprehensive comparative study of six bipolar complementary metal-oxide-semiconductor (BiCMOS) noncomplementary logic design styles and two CMOS logic styles for low-voltage, low-power operation. These logic styles have been compared for switching power consumption and power efficiency (power-delay product). The examination offers two alternative approaches never used in other comparative studies. First, all BiCMOS-based styles are compared to low-power CMOS styles as opposed to a single conventional static CMOS style. Second, a low-power methodology has been used as opposed to performance methodology referred to in the previous logic comparisons. The styles examined are bootstrapped BiCMOS, bootstrapped full-swing BiCMOS, bootstrapped bipolar CMOS, Seng-Rofail´s bootstrapped BiCMOS, modified full-swing BiCMOS, dynamic full-swing BiCMOS, double pass-transistor CMOS, and inverter-based CMOS. These design styles have been compared at various power supply voltages (0.9-3 V), with various output load capacitances (0.1-1 pF) at the frequency 50 MHz and temperature 27°C. The results clearly show which logic style is the most beneficial for which specific conditions