A Power Efficient Based DC to DC Converter Using SCC

S. Anusooya; P. Jawahar

Research Article

A Power Efficient Based DC to DC Converter Using SCC

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Cite: BibTeX Plain Text

@ARTICLE{10.4108/eai.25-8-2021.170755,
    author={S. Anusooya and P. K. Jawahar},
    title={A Power Efficient Based DC to DC Converter Using SCC},
    journal={EAI Endorsed Transactions on Energy Web: Online First},
    volume={},
    number={},
    publisher={EAI},
    journal_a={EW},
    year={2021},
    month={8},
    keywords={FINFET technology, switched capacitor circuits, leakage power, transmission gates},
    doi={10.4108/eai.25-8-2021.170755}
}

S. Anusooya
P. K. Jawahar
Year: 2021
A Power Efficient Based DC to DC Converter Using SCC
EW
EAI
DOI: 10.4108/eai.25-8-2021.170755

S. Anusooya¹^,*, P. K. Jawahar²

1: Assistant Professor, Department of Electronics and Communication Engineering, B. S. Abdur Rahman Crescent Institute of Science and Technology
2: Professor, Department of Electronics and Communication Engineering, B.S.Abdur Rahman Crescent Institute of Science and Technology

*Contact email: anusooya.ece@gmail.com

Abstract

Scaling is one of the most important aspects and is considered for designing digital circuits. With the help of scaling techniques, it can integrate more features into the chip for optimization of actual circuit space. But the main drawback of this scaling is short channel effects. And also as the technology shrinks, the leakage power plays a crucial role compared to dynamic power consumption. To avoid leakage power, the proposed design technology is used for the optimization of power and for avoiding short channel effects. To further reduce power consumption, the CMOS technology is replaced with transmission gates in switched-capacitor converter circuits and GDI Technique while generating clock signals in the circuit for operations.

Keywords: FINFET technology, switched capacitor circuits, leakage power, transmission gates

Received: 2021-05-23
Accepted: 2021-08-19
Published: 2021-08-25
Publisher: EAI

: http://dx.doi.org/10.4108/eai.25-8-2021.170755

Copyright © 2021 S. Anusooya et al., licensed to EAI. This is an open access article distributed under the terms of the Creative Commons Attribution license, which permits unlimited use, distribution and reproduction in any medium so long as the original work is properly cited.