Ricerc@Sapienza

In this paper we propose a novel approach called Multi-Folded (MF) MOS Current Mode Logic (MCML) which can be applied to a generic MCML gate (i.e., with a fan-in higher than two). The idea is implemented by alternating NMOS and PMOS differential pairs and properly introducing current mirrors between the adjacent levels of logic. The proposed approach allows a minimum power supply equal to the one of a MCML inverter and we show analytically the advantages in terms of speed and power consumption against the conventional implementation.

In this paper we propose a methodology to design high-speed, power-efficient static frequency dividers based on the low-voltage Folded MOS Current Mode Logic (FMCML) approach. A modeling strategy to analyze the dependence of propagation delay and power consumption on the bias currents of the divide-by-2 (DIV2) cell is introduced. We demonstrate that the behavior of the FMCML DIV2 cell is different both from the one of the conventional MCML DFF (D-type Flip-Flop) and from FMCML DFF without a level shifter.