Open AccessRealization with Fabrication of Double-Gate MOSFET Based Buck Regulator
Author(s) -
Simone Leeuw,
Viranjay M. Srivastava
Publication year - 2021
Publication title -
international journal of electrical and electronic engineering and telecommunications
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.171
H-Index - 6
ISSN - 2319-2518
DOI - 10.18178/ijeetc.10.1.66-75
Subject(s) - ripple , mosfet , buck converter , voltage regulator , low dropout regulator , regulator , voltage , control theory (sociology) , dissipation , electrical engineering , materials science , dropout voltage , transistor , engineering , computer science , physics , chemistry , biochemistry , control (management) , artificial intelligence , gene , thermodynamics
The traditional buck regulator provides the steady output voltage with high efficiency and low power dissipation. Various parameters of this regulator can be improved by the placement of Double-Gate (DG) MOSFET. The double-gate MOSFET provides twice the drain current flow, which improves the various parameters of buck regulator structure and inevitably increases the device performance and efficiency. In this research work, these parameters have been analyzed with implemented DG MOSFET buck regulator and realized the total losses 42.676 mW and efficiency 74.208%. This research work has designed a DG MOSFET based buck regulator with the specification of input voltage 12 V, output voltage 3.3 V, maximum output current 40 mA, switching frequency 100 kHz, ripple current of 10%, and ripple voltage of 1%.