DESIGN OF LOW INTRICATE 10-BIT CURRENT STEERING DIGITAL TO ANALOG CONVERTER CIRCUITRY USING FULL SWING GDI

Authors

  • Keerthivasan S S
  • Mahendra Babu G.R
  • Rajendran T

Keywords:

DAC, CMOS, FS-GDI Logic, INL & DNL

Abstract

Aim / Objective: A low-vigor, low-voltage, small- area DAC for prime pace applications is introduced on this paper, for top
velocity purposes, the present steering DAC is also used because the entire currents taken from the supply is utilized for the
output signal. Scope: This paper it deals with the design and evaluation of a 10-bit FS-GDI DAC which was once applied
making use of full Swing (FS) GDI logic in CMOS system. Results: The lively subject of this proposed DAC was decreased to
four times in a normal 0.18 µm with a varying voltage variety from 2.5 – 3.3V CMOS approach, each the INL and DNL have
been decreased for the proposed scheme of 10-bit FS-GDI DAC, although it’s a procedure of excessive order utilizing FS-GDI
DAC. Applications: Utilized for high speed processing circuitries.

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Published

2017-07-02

How to Cite

S, K. S., G.R, M. B. ., & T, R. . (2017). DESIGN OF LOW INTRICATE 10-BIT CURRENT STEERING DIGITAL TO ANALOG CONVERTER CIRCUITRY USING FULL SWING GDI. Pakistan Journal of Biotechnology, 14(Special II), 204–208. Retrieved from https://pjbt.org/index.php/pjbt/article/view/676

Issue

Vol. 14 No. Special II (2017): Pak. J. Biotechnology

Section

Research Articles

License

Copyright (c) 2021 Keerthivasan S S; Mahendra Babu G.R, Rajendran T

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.