International Journal of Innovative Research and Development

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A 10 Bit Low Power Current Steering Digital to Analog Converter Using 45 nm CMOS and GDI Logic


 

In this paper, The Design and Implementation low power Current Steering Digital to Analog Converter in 45 nm technology using CMOS and GDI Logic using TANNER TOOL, V15 is presented. This architecture gives the most optimized results in terms of speed, resolution and power. The designed 10-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 1.40 mW using GDI Logic and 2.63 mW using CMOS Logic. 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.


Keywords

CMOS , Current-Source, TANNER TOOL
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  • A 10 Bit Low Power Current Steering Digital to Analog Converter Using 45 nm CMOS and GDI Logic

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Abstract


In this paper, The Design and Implementation low power Current Steering Digital to Analog Converter in 45 nm technology using CMOS and GDI Logic using TANNER TOOL, V15 is presented. This architecture gives the most optimized results in terms of speed, resolution and power. The designed 10-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 1.40 mW using GDI Logic and 2.63 mW using CMOS Logic. 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.


Keywords


CMOS , Current-Source, TANNER TOOL