Home  About  Editorial Board  Archives  Current Issue  Indexing  Submission  FaQ  Contact

Automated Inventory Tracking and Alert System
Volume-6 | Issue-4

Automated Water Level Monitoring System using Arduino and GSM Module
Volume-5 | Issue-1

Smart Waste Segregation System using Convolutional Neural Networks
Volume-4 | Issue-2

Agro Guard Edge AI - Development of Sustainable IoT Framework for Wildlife Intrusion Detection
Volume-6 | Issue-4

Dehydration of Food Materials using Solar Dryer with Mobile App Integration
Volume-6 | Issue-1

Smart IoT Energy Metering System with Real-Time Theft Detection and Prevention
Volume-7 | Issue-2

Design and Implementation of Closed loop control for Flyback Converter
Volume-5 | Issue-2

Autonomous Vehicle: Challenges and Implementation
Volume-4 | Issue-2

Load Flow Study of GCT Powerhouse using ETAP
Volume-5 | Issue-1

Voice Controlled Application using ESP32
Volume-7 | Issue-3

Power Transfer Capability Recognition in Deregulated System under Line Outage Condition Using Power World Simulator
Volume-3 | Issue-4

Transformer Oil Diagnostic Tests Analysis using Statistical Correlation Technique
Volume-4 | Issue-3

Design of Inverter Voltage Mode Controller by Backstepping Technique for Nonlinear Power System Model
Volume-3 | Issue-4

Smart Wires and Modular FACTS Controllers for Smart Grid Applications: A Review
Volume-3 | Issue-4

Automated Multimodal Fusion Technique for the Classification of Human Brain on Alzheimer’s Disorder
Volume-3 | Issue-3

Performance Analysis of Multiple Pico Hydro Power Generation
Volume-2 | Issue-2

Prediction of Energy Consumption by Ships at the port using Deep Learning
Volume-3 | Issue-2

Energy Efficient Data Mining Approach for Estimating the Diabetes
Volume-3 | Issue-2

Wireless Power Transfer Device Based on RF Energy Circuit and Transformer Coupling Procedure
Volume-3 | Issue-3

A Novel Adaptive Fuzzy MPPT Algorithm under Changing Atmospheric Conditions
Volume-3 | Issue-4

Home / Archives / Volume-5 / Issue-2 / Article-4

Design and Implementation of Closed loop control for Flyback Converter

Bhuvanesan M ,  Elanagan S,  Kokila P,  Gowsalya G,  Dr. S. Elango
Open Access
Volume - 5 • Issue - 2 • june 2023
https://doi.org/10.36548/jeea.2023.2.004
191-206  1064 PDF
Abstract

One of the high frequency switching power supply circuits is the flyback converter. Due to its inexpensive cost and electrical isolation properties, it is mostly employed in low power applications. It is well known that high frequency switching results in losses and lowers inverter efficiency, particularly at low powers. Consequently, a flyback DC-DC converter that is run in a closed control loop is explained in this study. Closed-loop control is the proposed topology for the flyback converter. For the same input/output conditions, the findings from the closed-loop converter are compared to those from the open-loop feedback topology. A closed-loop flyback has been found to be more effective than an open-loop flyback. MATLAB simulates the outcomes. One of the high frequency devices is the flyback converter.

Cite this article
Chicago APA MLA Vancouver IEEE Harvard BibTeX
M, Bhuvanesan, Elanagan S, Kokila P, Gowsalya G, and Dr. S. Elango. "Design and Implementation of Closed loop control for Flyback Converter." Journal of Electrical Engineering and Automation 5, no. 2 (2023): 191-206. doi: 10.36548/jeea.2023.2.004
Copy Citation
M, B., S, E., P, K., G, G., & Elango, D. S. (2023). Design and Implementation of Closed loop control for Flyback Converter. Journal of Electrical Engineering and Automation, 5(2), 191-206. https://doi.org/10.36548/jeea.2023.2.004
Copy Citation
M, Bhuvanesan, et al. "Design and Implementation of Closed loop control for Flyback Converter." Journal of Electrical Engineering and Automation, vol. 5, no. 2, 2023, pp. 191-206. DOI: 10.36548/jeea.2023.2.004.
Copy Citation
M B, S E, P K, G G, Elango DS. Design and Implementation of Closed loop control for Flyback Converter. Journal of Electrical Engineering and Automation. 2023;5(2):191-206. doi: 10.36548/jeea.2023.2.004
Copy Citation
B. M, E. S, K. P, G. G, and D. S. Elango, "Design and Implementation of Closed loop control for Flyback Converter," Journal of Electrical Engineering and Automation, vol. 5, no. 2, pp. 191-206, Jun. 2023, doi: 10.36548/jeea.2023.2.004.
Copy Citation
M, B., S, E., P, K., G, G. and Elango, D.S. (2023) 'Design and Implementation of Closed loop control for Flyback Converter', Journal of Electrical Engineering and Automation, vol. 5, no. 2, pp. 191-206. Available at: https://doi.org/10.36548/jeea.2023.2.004.
Copy Citation 
@article{m2023,
  author    = {Bhuvanesan M and Elanagan S and Kokila P and Gowsalya G and Dr. S. Elango},
  title     = {{Design and Implementation of Closed loop control for Flyback Converter}},
  journal   = {Journal of Electrical Engineering and Automation},
  volume    = {5},
  number    = {2},
  pages     = {191-206},
  year      = {2023},
  publisher = {IRO Journals},
  doi       = {10.36548/jeea.2023.2.004},
  url       = {https://doi.org/10.36548/jeea.2023.2.004}
}
Copy Citation
Keywords
Flyback converter closed loop open loop MATLAB isolation
Published
29 May, 2023
e-ISSN: 2582-3051
4 issues per year
DOI: https://doi.org/10.36548/jeea
Indexing
GoogleScholar | Crossref | MicrosoftAcademic | ScienceGate | J-Gate
Publisher
publisherLogo
Inventive Research Organization
Publication Charges: Nil
inthenticate logo
Support us through subscription: click here
Subscription form: click here
×

Currently, subscription is the only source of revenue. The subscription resource covers the operating expenses such as web presence, online version, pre-press preparations, and staff wages.

To access the full PDF, please complete the payment process.

Subscription Details

Category Fee
Article Access Charge
15 USD
Open Access Fee Nil
Annual Subscription Fee
200 USD
paypal proceed
townscript proceed
After payment,
please send an email to irojournals.contact@gmail.com / journals@iroglobal.com requesting article access.
Subscription form: click here