This is an unedited manuscript accepted for publication and provided as an Article in Press for early access at the author’s request. The article will undergo copyediting, typesetting, and galley proof review before final publication. Please be aware that errors may be identified during production that could affect the content. All legal disclaimers of the journal apply.
Shrutika.P. Goraksha,
Pooja .S. Chobe2,
Dr. D.B.Pardeshi,
- Student,, Department of Electrical Engineering Sanjivani College Of Engineering,Kopargaon,, Maharashtra, India
- Student,, Department of Electrical Engineering Sanjivani College Of Engineering,Kopargaon,, Maharashtra, India
- Student,, Department of Electrical Engineering Sanjivani College Of Engineering,Kopargaon,, Maharashtra, India
Abstract document.addEventListener(‘DOMContentLoaded’,function(){frmFrontForm.scrollToID(‘frm_container_abs_121465’);});Edit Abstract & Keyword
The main motive of this paper is to use MATLAB Simulation to design a FLC (fuzzy logical controller) for a boost DC-DC converter. By creating an FLC algorithm, the FLC was integrated into the system. This implies that the controller bases its control decisions on the concepts of fuzzy logic. The inductor has undergone extensive design and calculation work to guarantee that the transformator runs in mode of continuous conduction. This suggests that the appropriate functioning of a converter depends on the careful design and selection of its components. Through software simulation with MATLAB software, the system’s output has been assessed and compared. The circuits that are closed-loop (with feedback control) and open-loop (without it) are compared. The simulation results show that this methodology is utilised for managing the voltage output of the boost DC-DC converter in a steady-state condition. This implies that the performance of the converter is effectively enhanced by FLC. Overall, the goal of the paper is to enhance the adaptable implementation of a DC-DC boost converter by presenting a methodology for designing and implementing a FLC. The simulation-based evaluation demonstrates encouraging outcomes in reaching the targeted control goals.
Keywords: MATLAB-Simulink, Boost Converter, DC to DC Converter, and Fuzzy Controller
[This article belongs to International Journal of Solid State Innovations & Research (ijssir)]
Shrutika.P. Goraksha, Pooja .S. Chobe2, Dr. D.B.Pardeshi. Using Fuzzy Control System Develop Boost DC-to-DC Converter. International Journal of Solid State Innovations & Research. 2024; 02(02):21-30.
Shrutika.P. Goraksha, Pooja .S. Chobe2, Dr. D.B.Pardeshi. Using Fuzzy Control System Develop Boost DC-to-DC Converter. International Journal of Solid State Innovations & Research. 2024; 02(02):21-30. Available from: https://journals.stmjournals.com/ijssir/article=2024/view=0
References
document.addEventListener(‘DOMContentLoaded’,function(){frmFrontForm.scrollToID(‘frm_container_ref_121465’);});Edit
- [1]. Dukare SI, Bankar AS, Chobe PS, Pardeshi DB, William P. Smart-Charge-Pro: Innovating Energy Metering and Monitoring for Sustainable EV Stations. In2023 4th International Conference on Smart Electronics and Communication (ICOSEC) 2023 Sep 20 (pp. 119-123). IEEE.
- [2]. Salve R, Paik S, Kalaskar P, Urunkar R, Sable S, William P. Analysis of the Cloudlet’s Performance Using Machine Learning with Cloud Management System. In2023 4th International Conference on Computation, Automation and Knowledge Management (ICCAKM) 2023 Dec 12 (pp. 01-05). IEEE.
- [3]. Shamim-UI-Alam M., Quamruzzaman M. and rahman K.M. “Fuzzy logic based sliding mode controlled dc-dc boost power converter,” Proc. in Electrical and Computer Engineering(ICECE), International Conference on 70-73 (2010)
- [4]. Rubaai A, Chouikha MF. Design and analysis of fuzzy controllers for DC-DC converters. InFirst International Symposium on Control, Communications and Signal Processing, 2004. 2004 Mar 21 (pp. 479-482). IEEE.
- [5]. Kolpe DR, Lakare SV, Narode SK, Kolpe PS, Vasant MP, William P. Enhancing Trust and Privacy in Edge and Cloud Computing Through Blockchain Technology. In2023 4th International Conference on Computation, Automation and Knowledge Management (ICCAKM) 2023 Dec 12 (pp. 1-6). IEEE.
- [6]. Chaudhari SA, Ahire NB, Jagtap VJ, Shinde PS, William P. Design of Blockchain Models for the Identifications of Harmful Attack Activities in Industrial Internet of Things (IIOT). In2023 4th International Conference on Computation, Automation and Knowledge Management (ICCAKM) 2023 Dec 12 (pp. 01-07). IEEE.
- [7]. King PJ, Mamdani EH. The application of fuzzy control systems to industrial processes. Automatica. 1977 May 1;13(3):235-42.
- [8]. Agrawal M, Goel S, William P, Agwan R, Bhangale SC, Ghige O. Big Data and Machine Learning: Barriers and Methods. In2024 4th International Conference on Innovative Practices in Technology and Management (ICIPTM) 2024 Feb 21 (pp. 1-6). IEEE.
- [9]. Rajaretnam S. An Effective Technique to Detect WIFI Unauthorized Access using Deep Belief Network. International journal of electrical and computer engineering systems. 2024 Feb 23;15(2):137-44.
- Yogeesh N, Girija DK, Rashmi M, William P. Intelligent Irrigation Systems in Agriculture Using Fuzzy Logic Techniques. InInternational Conference on Entrepreneurship, Innovation, and Leadership 2023 Sep 14 (pp. 295-309). Singapore: Springer Nature Singapore.
- Lee CC. Fuzzy logic in control systems: fuzzy logic controller. I. IEEE Transactions on systems, man, and cybernetics. 1990 Mar;20(2):404-18.
- Ugale CP, Dhumale RB, Dixit VV. DC-DC converter using fuzzy logic controller. International Research Journal of Engineering and Technology. 2015 Jul 4;2(4):593-6.
- Mattavelli P, Rossetto L, Spiazzi G, Tenti P. General-purpose fuzzy controller for DC-DC converters. IEEE transactions on Power Electronics. 1997 Jan;12(1):79-86.
| Volume | 02 |
| Issue | 02 |
| Received | 07/10/2024 |
| Accepted | 11/11/2024 |
| Published | 25/11/2024 |