An MOS ternary-logic family is proposed, which is comprised of a set of inverters, NOR gates, and NAND gates. These gates are used to design basic ternary arithmetic and memory circuits. The circuits thus obtained are then used to synthesize complex ternary arithmetic circuits and shift registers. The ternary circuits developed are shown to have some significant advantages relative to other known ternary circuits like low power dissipation, and reduced propagation delay and component count. For a given dynamic range, the complexity of the new ternary circuits is shown to be comparable to that of corresponding binary circuits. Nevertheless, the associated reduction in the wordlength in the case of the ternary circuits tends to alleviate to a large extent the pin limitation problem associated with VLSI implementation. The paper concludes with an implementation of the cyclic convolution, an application in which a significant advantage can be gained through the use of ternary digital hardware. 'A tnt is a ternary digit.
Abstract:The high speed conversions are needed in the faster analog -to-digital converters. The accuracy of comparators is defined by its power consumption and speed. Many high speed ADCs, such as flash ADCs, require High speed, Low power comparators with small chip area. Conventional dynamic latched comparators suffer from low supply voltages especially when threshold voltage of the devices is not scaled at the same pace as the supply voltages of the modern CMOS process. The proposed comparator System has lower input-referred latch offset voltage and higher load drivability than the conventional dynamic latched comparators. In the dynamic Double tail comparator the simulation in a CMOS technology. In the Proposed dynamic Double tail comparator System both the power consumption and delay time will be significantly reduced. The maximum clock frequency of the proposed comparator can be reduced at modified supply voltages.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.