Low Power Based Sense Amplifier By Using Conditional Bridging Technique

Dr. R. Sri  Devi; Muliki Vijaya  Kumar

doi:10.63278/mme.vi.1707

Low Power Based Sense Amplifier By Using Conditional Bridging Technique

Authors

Dr. R. Sri Devi Professor & Hod, Deptof Ece, In Sree Vahini Institute Of Science And Technology, Tiruvuru, Andhra Pradesh 521235, Ap.
Muliki Vijaya Kumar Pg Scholar, Deptof Ece, In Sree Vahini Institute Of Science And Technology, Tiruvuru, Andhra Pradesh 521235, Ap.

DOI:

https://doi.org/10.63278/mme.vi.1707

Keywords:

Sub Threshold Technology, Flip Flop, Low Power.

Abstract

One of the major challenges in modern VLSI design is power consumption, right up there with space and performance. Digital systems rely on the flip-flop. In sub-threshold operation, we examine and contrast four different flip-flop topologies: IP-DCO, MHLFF, CPSFF, and CPFF. Both pulse-triggered and conditional approaches are included in these topologies. Very low power consumption applications are now within reach, thanks to sub threshold technology. One advantage of this technique is that it decreases the number of power-hungry flip-flops. Compared to a strong inversion circuit, a subthreshold circuit consumes less power while running at the same frequency. Tanner uses 18nm technology in cmos for design. We test the flip-flops' power delay, power delay product, and average power at a 1V power supply voltage and look at them from every perspective.

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How to Cite

Devi, Dr. R. Sri, and Muliki Vijaya Kumar. 2025. “Low Power Based Sense Amplifier By Using Conditional Bridging Technique”. Metallurgical and Materials Engineering, May, 1300-1308. https://doi.org/10.63278/mme.vi.1707.

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Issue

Vol. 31 No. 5 (2025)

Section

Research

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