A 45 nm 6 Bit Low Power Current Steering Digital to Analog Converter Using GDI Logic

TELKOMNIKA Indonesian Journal of Electrical Engineering Pub Date : 2015-10-01 DOI:10.11591/IJEECS.V16.I1.PP46-51
Bharat H. Nagpara
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引用次数: 1

Abstract

In this paper, The Design and Implementation low power Current Steering Digital to Analog Converter in 45 nm technology using GDI Logic using TANNER TOOL, V15 is presented. This architecture gives the most optimized results in terms of speed, resolution and power. The designed 6-bit DAC operates with two supply voltages, 1 V and 3.3 V. The simulation result shows the transient analysis waveforms of current Steering DAC. The average power dissipation is 364.06 μW. The tool used for simulation is Tanner S-Edit and T-Spice. Comparisons show that using GDI logic, it consists low power as compare to the CMOS logic.
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基于GDI逻辑的45纳米6位低功率电流转向数模转换器
本文介绍了基于GDI逻辑的45纳米低功耗电流转向数模转换器的设计与实现。该架构在速度,分辨率和功率方面提供了最优化的结果。设计的6位DAC工作在两个电源电压下,1 V和3.3 V。仿真结果显示了电流转向DAC的暂态分析波形。平均功耗为364.06 μW。模拟使用的工具是Tanner S-Edit和T-Spice。比较表明,采用GDI逻辑,其功耗较CMOS逻辑低。
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TELKOMNIKA Indonesian Journal of Electrical Engineering
TELKOMNIKA Indonesian Journal of Electrical Engineering
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