电流转向数模转换器CMOS锁存驱动电路的比较分析

2022 29th International Conference on Mixed Design of Integrated Circuits and System (MIXDES) Pub Date : 2022-06-23 DOI:10.23919/mixdes55591.2022.9837990

Oscar Morales Chacon, J. Wikner, A. Alvandpour, L. Siek

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摘要

本文对用于电流转向(CS)数模转换器(dac)的单相和双相时钟锁存驱动电路进行了比较分析。考虑了功耗、传输和交换延迟的设计指标及其产品。此外，还提出了一种替代锁存驱动器，以保持低功耗和短开关延迟。采用65nm CMOS工艺，并通过布局后仿真得到了结果。在分析中，与单相时钟电路相比，双相位时钟电路的功耗约为2.4倍，开关延迟缩短5.9倍。与双相时钟解决方案相比，所提出的锁存驱动器在保持开关延迟的情况下消耗约1.6倍的功率，从而使功率延迟积降低25%，并在0.8-1.2 V供电范围内达到最低的功率开关延迟积。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Comparative Analysis of CMOS Latch-Driver Circuits for Current-Steering Digital-to-Analog Converters

In this paper a comparative analysis of single- and dual-phase-clocked latch-driver circuits aimed at current-steering (CS) digital-to-analog converters (DACs) is presented. The design metrics of power consumption, propagation and switching delay as well as their product are considered. Moreover, an alternative latch-driver is proposed to sustain low-power consumption with short switching-delay. A 65 nm CMOS process is used and the results are obtained from post-layout simulations. In the analysis, dual-phase-clocked circuits consume about 2.4 x more power consumption and report 5.9 x shorter switching-delay with respect to the single-phase-clocked circuits. The proposed latch-driver consumes about 1.6 x more power with maintained switching-delay as the dual-phase-clocked solutions that leads to a reduction in the power-delay product of 25% and the lowest power-switching-delay product in the supply range 0.8-1.2 V.

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2022 29th International Conference on Mixed Design of Integrated Circuits and System (MIXDES)

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