ÉTUDE SUR L'AMÉLIORATION DE LA STABILITÉ D'UN CONVERTISSEUR ÉLÉVATEUR À HAUT GAIN POUR SYSTÈME PHOTOVOLTAÏQUE

Auteurs

  • S. SANGEETHA Sri Sivasubramaniya Nadar College of Engineering, Kalavakkam, Tamil Nadu 603110, India. Author
  • R. RAMAPRABHA Sri Sivasubramaniya Nadar College of Engineering, Kalavakkam, Tamil Nadu 603110, India. Author https://orcid.org/0000-0002-2468-078X

DOI :

https://doi.org/10.59277/RRST-EE.2025.4.20

Mots-clés :

Module photovoltaïque (PV), Convertisseur à haut rendement (HGC), Compatibilité électromagnétique (CEM), Suivi du point de puissance maximale (MPPT), MATLAB

Résumé

Comme le suggère l'étude, il est recommandé d'utiliser un convertisseur CC-CC efficace dans les applications liées aux énergies renouvelables. Pour la conception d'un convertisseur élévateur à gain élevé (HGC), on utilise des cellules à inductance commutée (SIC) et des cellules multiplicatrices de tension (VMC). Les VMC fournissent un gain de tension élevé côté convertisseur, tandis que les cellules à inductance commutée fournissent un courant de source constant. Son rendement permet au convertisseur recommandé de maintenir un gain de tension élevé à un faible rapport cyclique. La stabilité du convertisseur est assurée par la modélisation de l'espace d'état (SSM). La compatibilité électromagnétique (CEM) du convertisseur de puissance est vérifiée à l'aide d'un analyseur de spectre. La décharge électrique et l'énergie potentielle du semi-conducteur de puissance, dans des conditions stables, ainsi que les diagrammes de Bode et de Nyquist, sont examinés. De plus, l'interface du module photovoltaïque avec un convertisseur à gain élevé est simulée pour les valeurs spécifiées.

Biographie de l'auteur

  • R. RAMAPRABHA, Sri Sivasubramaniya Nadar College of Engineering, Kalavakkam, Tamil Nadu 603110, India.

    Dr. R. Ramaprabha, Associate Professor in the Department of Electrical and Electronics Engineering has 23 years of teaching experience including 17 years of research experience. She obtained her B.E (ECE) degree and M.E. (Power Electronics and Drives) degree from Bharathidasan University, Tiruchirapalli and PhD from Anna University, Chennai.

    Her area of specialization is solar photovoltaic systems. Other areas of research include power electronic interfaces for solar PV systems and control aspects in renewable energy interfaces. She is a recognized supervisor of Anna University. 7 scholars have completed their PhD under her guidance and she is currently guiding 6 PhD students. She is an approved research committee member in Vellore Institute of Technology (VIT), Dr. M. G. R. University-Chennai, SRM University-Chennai, Saveetha University-Chennai, Sathyabama university, Visvesvaraya Technological University – Karnataka.

    During her PhD, she developed “Solar Energy Research Lab” which is in the east wing of EEE department with internal funding titled “Efficient Energy Utilization of Solar PV Array under Partial Shadow” of Rs.9.19 lakhs (funded by SSN Trust).  She has published 118 research publications in international journals, 156 papers in the proceedings of refereed international conferences and 34 papers in National conferences.

    She has delivered Lecture & Tutorial sessions on PSPICE in National level workshops and guest lectures. She delivered invited lectures, keynote addresses and chaired technical sessions in Indian/Foreign international conferences. She visited Singapore, Australia (Sydney) & USA (Hawaii) for paper presentation & chairing sessions. She organized 50 National level Workshops/Seminars (1 CSIR sponsored worth of Rs. 30,000/-), 1 AICTE sponsored two weeks FDP worth of Rs. 3.55 lakhs, 4 FDPs, 3 Webinars, 17 Student level workshops, 2 National conferences and 3 IEEE International conferences.

    She received best teacher award for the academic years 2009-2010, 2010-2011, 2014-2015, 2016-2017 and 2020-2021. She also received CTS best faculty award for the academic year 2016-2017. She also received appreciation for best researcher (2013), guiding PhD students and motivating students towards research (2013, 2016) during the college Research Day. She received “IET CLN Sir C. V. Raman Research Award 2014” in IET Chennai Network Achievements Awards 2014 function by IET (The Institution of Engineering and Technology). She is recipient of “Outstanding Researcher Award 2016” by Venus International foundation, Aufau International Awards, “PEARL Foundation Best Women Researcher Award 2016” and “2018 Green9 Energy Contributor Award - KALAM VISION 2020 award”. Her name is included in the 30th, 32nd and 33rd Editions of Marquis Who’s Who in Science and Engineering, USA. She has been selected for 2017 & 2019 Albert Nelson Marquis Lifetime Achievement Award by Marquis Who's Who, USA.

    She is a review board member for many reputed international journals include International journal on IET Renewable Power Generation, IET Power Electronics, IET Generation, Transmission & Distribution, IEEE Transactions on Power Electronics, International journal on Simulation Modelling Practice and Theory (Elsevier Publications), International Journal of Electrical Power and Energy Systems (Elsevier Publications), International journal on Renewable & Sustainable Energy Reviews (Elsevier Publications), International journal on Renewable Energy (Elsevier Publications), Journal of Green Engineering (River Publishers), IEEE Transactions on Smart Grid, IEEE access, etc.

    She is Senior member of IEEE and Life member of ISTE. She was SSN-IEEE Student Branch Counselor from Oct 2014 to Jan 2017. During this period, the branch was appreciated with Grade A from IEEE Madras section. She was instrumental for getting (SSN-SB) I Prize in "IEEE India Council Outstanding Student Branch Award 2015". She has been involved in NBA and NIRF activities in the institution.

    She has published the following books/book chapters:

    1. Seyezhai and R. Ramaprabha “Power Electronics for Renewable Energy Systems” SciTech Publications Pvt. Ltd. (ISBN: 978-81-8371-713-7), India, May 2015. (Book was included as reference book in Anna University PG regulations R-2017)
    2. Ramaprabha and R. Seyezhai “Solid State Drives: DC and AC” SciTech Publications Pvt. Ltd. (ISBN: 978-93-85983-81-8), India, April 2019.
    1. Hemalatha R., Ramaprabha R., Radha S. (2013) Modeling of Photovoltaic Charging System for the Battery Powered Wireless Sensor Networks. In: Das V. (eds) Proceedings of the Third International Conference on Trends in Information, Telecommunication and Computing. Lecture Notes in Electrical Engineering, vol 150, Chapter 25, pp. 225-235. Springer, New York, NY. https://doi.org/10.1007/978-1-4614-3363-7_25, [ISBN:978-1-4614-3362-0; ISBN (e-book):978-1-4614-3363-7; ISSN: 1876-1100; ISSN (electronic): 1876-111] Scopus Index 0.12, Citations: 01
    2. R. Ramaprabha and S. Malathy, “Selection of Renewable Energy Sources for a Developing Country using Analytic Hierarchy Process” Chapter 16, pp. 359-380, Sustainability Modeling in Engineering: A Multi-Criteria Perspective, ISBN: 978-981-3276-32-1,World Scientific Publishing Company Pvt. Ltd., Singapore,  2019. https://doi.org/10.1142/11157 (https://doi.org/10.1142/ 9789813276338_0016)
    3. S. Malathy and R. Ramaprabha (2020) Shade Resilient Total Cross Tied Configurations to Enhance Energy Yield of Photovoltaic Array Under Partial Shaded Conditions. In: Hemanth D., Kumar V., Malathi S., Castillo O., Patrut B. (eds) Emerging Trends in Computing and Expert Technology. COMET 2019. Lecture Notes on Data Engineering and Communications Technologies, vol. 35, pp. 122–133, Springer, Cham. Doi: https://doi.org/10.1007/978-3-030-32150-5_13: Print ISBN 978-3-030-32149-9; Online ISBN 978-3-030-32150-5.
    4. T. Divya and R. Ramaprabha (2020) Mathematical Modelling of Embedded Switched-Inductor Z-Source Inverter for Photovoltaic Energy Conversion. In: Siano P., Jamuna K. (eds) Advances in Smart Grid Technology. Lecture Notes in Electrical Engineering, vol 687, pp 149-164, Springer, Singapore. https://doi.org/10.1007/978-981-15-7245-6_13
    5. M. Pandikumar and R. Ramaprabha (2020) Financial Analysis of Diesel and Solar Photovoltaic Water Pumping Systems. In: Siano P., Jamuna K. (eds) Advances in Smart Grid Technology. Lecture Notes in Electrical Engineering, vol 687, pp. 179 – 188, Springer, Singapore. https://doi.org/10.1007/978-981-15-7245-6_15
    6. R. Ramaprabha and S. Malathy (2020) Hybrid Algorithms to Track Peak Power in Solar PV Array under All Irradiation Conditions version. In: Siano P., Jamuna K. (eds) Advances in Smart Grid Technology. Lecture Notes in Electrical Engineering, vol 687, pp. 165 -178, Springer, Singapore. https://doi.org/10.1007/978-981-15-7245-6_14
    7. T. Divya and R. Ramaprabha, Comparative Topological Study of Embedded Based Switched Boost Inverter” Advances in Parallel Computing (IOS press E-books), Pages 37 – 44, Volume 37 in Intelligent Systems and Computer Technology, ISBN: 978-1-64368-102-3 (print) | 978-1-64368-103-0 (online), DOI 10.3233/APC200116 -Scopus indexed
    8. Ramaprabha R., Malathy S. (2021) Enhancement Techniques to Design a Standalone PV System for Residential Application. In: Motahhir S., Eltamaly A.M. (eds) Advanced Technologies for Solar Photovoltaics Energy Systems. Green Energy and Technology. Springer, Cham. https://doi.org/10.1007/978-3-030-64565-6_10  Scopus indexed – Available online on April 27.
    9. Ramya V., Ramaprabha R., Balaji M. (2021) Differential Evolution Based Design Optimization of Flywheel with Different Materials. In: Kamaraj V., Ravishankar J., Jeevananthan S. (eds) Emerging Solutions for e-Mobility and Smart Grids. Springer Proceedings in Energy. Springer, Singapore. pp. 61-68, Print ISBN: 978-981-16-0718-9; Online ISBN 978-981-16-0719-6. https://doi.org/10.1007/978-981-16-0719-6_6

     

    She received international travel grant of Rs. 1.45 lakhs under DST-ITS for attending the conference at Hawaii during Dec 2017. She has completed three internal funded projects and one external funded (DST WoS-A) project. The project details are:

     

    Completed/Ongoing Funded Project details:

    1. Title: Efficient Energy Utilization of Solar PV Array under Partial Shadow

              Funding Agency: SSN Trust

              Investigators: Dr. B. L. Mathur & R. Ramaprabha

              Duration: 2009 – 2012; Amount: 9.19 lakhs 

     

    1. Title: Design and development of efficient Building integrated PV system under partial shaded conditions

              Funding Agency: SSN Trust

              Investigators: Dr. R. Ramaprabha and Ms. S. Malathy

              Duration: 2013 – 2016; Amount: 3.5 lakhs 

     

    1. Title: Design and Development of Flywheel based Power Conditioning System for a Renewable energy fed Micro grid

              Funding Agency: Department of Science and Technology (DST) under Women   

              Scientists Scheme (WoS-A)

    Investigators: Dr. R. Ramaprabha as Scientist Mentor for the full-time Research scholar Ms. M. Vijayalakshmi

              Duration: 2014 – 2017; Amount: 20 lakhs 

     

    1. Title: Design, control and implementation of embedded switched inductor-based Z-source inverter with high boost factor for photovoltaic interface

              Funding Agency: SSN Trust

              Investigator: Dr. R. Ramaprabha

              Duration: Jan 2019 – Jan 2021; Amount: 2.2 lakhs 

     

    1. Title: Development of effective AI models for automatic fault
      detection in PV power plants

              Funding Agency: SSN Trust

              Investigator: Dr. V. Durgadevi (IT department) & Dr. R. Ramaprabha

              Duration: Dec 2023 – Dec 2026; Amount: 3.8 lakhs 

     

     

    Consultancy Project details:

     

    1. Title: Solar Based Drive for Scrap Compaction

              Company: M/s. Ayya Traders, Thiruvanthapuram

              Consultants: Dr. M. Balaji, Dr. R. Ramaprabha & Dr. V. Kamaraj

              Duration: April 2023 – April 2025 (2 Years)

    Amount: 2 lakhs 

     

    Patent details:

     

    1. Title: A Solar Powered Compact Dustbin Assembly

    Application Number-202241008633 (RQ Number-R20224006407)

    Inventors: M. Aishwarya, N. Divyasri, S. J. Indhra Pooja, Dr. R. Ramaprabha, Dr. M. Balaji & Dr. V. Kamaraj

    Status: Granted (Patent No. 471651)

    Citations:  

    Google scholar:  Citations – 2367; h-index – 23; i10 index – 37 (https://scholar.google.co.in/citations?hl=en&user=RssCO6sAAAAJ)

    Scopus: Citations – 1237; h-index – 17

    Web of Science (Publons): h-index - 10

    Research gate (RG):  h-index – 20

Références

S. Tseng and W. Hung-Yuan, "A photovoltaic power system using a high step-up converter for DC loads applications", Energies, vol. 6, pp. 1068-1100, 2013.

J. Gnanavadivel, K. Jayanthi, S. Vasundhara, K.V. Swetha, K. Jeya Keerthana. "Analysis and design of high gain DC-DC converter for renewable energy applications", Automatika,2023.

Martin Breus Meier, S. Avelino da Silva, Alceu André Badin, Eduardo Félix Ribeiro Romaneli, Roger Gules, "Soft-Switching High Static Gain DC–DC Converter Without Auxiliary Switches", IEEE Transactions on Industrial Electronics, vol.65, no.3, pp.2335-2345, 2018.

Reza Asgarnia and Ebrahim Afjei, “A novel high‐efficient step‐up converter with continuous input current, common ground, and minimum stress on semiconductors”, IET Power Electronics, 2023.

M. T. Mathew and Z. Ismail, "A Four Level Interleaved Boost Converter with a Voltage Multiplier for High Voltage Applications," 2023 IEEE 8th International Conference on Engineering Technologies and Applied Sciences (ICETAS), Bahrain, Bahrain, 2023, pp. 1-6, doi: 10.1109/ICETAS59148.2023.10346323.

Hadi Tarzamni, Homayon Soltani Gohari, Mehran Sabahi and Jorma Kyyrä, "Nonisolated High Step-Up DC–DC Converters: Comparative Review and Metrics Applicability", IEEE Transactions on Power Electronics, vol.39, no.1, pp.582-625, 2024.

Shahrukh Khan, Arshad Mahmood, Mohd Tariq, Mohammad Zaid, Irfan Khan, Syed Rahman, "Improved Dual Switch Non-Isolated High Gain Boost Converter for DC microgrid Application", 2021 IEEE Texas Power and Energy Conference (TPEC), pp.1-6, 2021.

Mansour, A. S., Sarhan, E. M., El-Sabbe, A. E. & Osheba, D. S. M. A single switch high gain DC–DC converter with switched inductor. In Proc. of the IEEE 22nd International Middle East Power Systems Conference (MEPCON), Assiut, Egypt, 14–16 December 2021.

E Leelavathi and Mahesh Kumar Mishra, "An Efficient High-Gain DC-DC Converter for Solar Photovoltaic Applications", 2023 1st International Conference on Circuits, Power and Intelligent Systems (CCPIS), pp.1-6, 2023.

Rezvan Fani, Zahra Akhlaghi and Ehsan Adib, "High Step-Up DC-DC Converter by Integration of Active Switched Inductors, Built in Transformer, and Multipliers", IEEE Transactions on Power Electronics, vol.39, no.2, pp.2468-2477, 2024.

Jigneshkumar P. Desai, Ankurkumar P. Desai, Vipul Panchal and Subhnarayan Sahoo, "Design and Analysis of High Gain DC-DC Converter", 2023 IEEE Renewable Energy and Sustainable E-Mobility Conference (RESEM), pp.1-5, 2023.

J. A. Gow and C. D. Manning, "Photovoltaic converter system suitable for use in small scale stand-alone or grid connected applications", IEE Proceedings on Electric Power Applications, vol. 147, no. 6, pp. 535-543, 2000.

Mostafa Ahmed, & Ibrahim Harbi, & Ralph Kennel, & M. L. Heldwein, & Jose Rodriguez, & Mohamed Abdelrahem, “Performance Evaluation of PV Model-Based Maximum Power Point Tracking Techniques”, Electronics, 2022.

Xuanjin Sun, Desheng Rong, Ning Wang, "A High Step-Up Integrated Buck-Boost-Zeta Converter Using Three-Winding Coupled Inductor With Current Sharing Considered", IEEE Journal of Emerging and Selected Topics in Power Electronics, vol.11, no.3, pp.3323-3334, 2023.

Gang Wu, Xinbo Ruan, Zhihong Ye, "Non-isolated high step-up DC-DC converter adopting auxiliary capacitor and coupled inductor", Journal of Modern Power Systems and Clean Energy, vol.6, no.2, pp.384-398, 2018.

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Publiée

2025-11-17

Numéro

Vol. 70 No 4 (2025): RRST-EE

Rubrique

Électronique et transmission de l’information | Electronics & Information Technology

Licence

(c) Copyright REVUE ROUMAINE DES SCIENCES TECHNIQUES — SÉRIE ÉLECTROTECHNIQUE ET ÉNERGÉTIQUE 2025

Creative Commons License

Ce travail est disponible sous licence Creative Commons Attribution - Pas d'Utilisation Commerciale - Pas de Modification 4.0 International.

Comment citer

ÉTUDE SUR L’AMÉLIORATION DE LA STABILITÉ D’UN CONVERTISSEUR ÉLÉVATEUR À HAUT GAIN POUR SYSTÈME PHOTOVOLTAÏQUE. (2025). REVUE ROUMAINE DES SCIENCES TECHNIQUES — SÉRIE ÉLECTROTECHNIQUE ET ÉNERGÉTIQUE, 70(4), 549-554. https://doi.org/10.59277/RRST-EE.2025.4.20