A Ladder Architecture for Power Improvement and Multi-Peaks Elimination in PV Arrays during Non-Uniform Irradiance Scenarios
Solar Photovoltaic (PV) arrays are vulnerable to non-uniform irradiances that diminish their power generation and introduce complexities by creating multiple peaks in the power-voltage curves, ultimately leading to reduction in overall performance. Various mitigation techniques are proposed in the l...
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my.uniten.dspace-343482024-10-14T11:19:12Z A Ladder Architecture for Power Improvement and Multi-Peaks Elimination in PV Arrays during Non-Uniform Irradiance Scenarios Satpathy P.R. Babu Thanikanti S. Krishna Madeti S.R. Sharma R. Ramachandaramurthy V.K. 57195339278 56267551500 58902935800 57196545270 6602912020 bypass diode mismatch multiple peaks partial shading photovoltaic (PV) Architecture Conversion efficiency Solar power generation Bypass diodes Mismatch Multiple-peak Non-uniform Partial shading Photovoltaic Photovoltaic arrays Photovoltaics Power improvements Power- generations Ladders Solar Photovoltaic (PV) arrays are vulnerable to non-uniform irradiances that diminish their power generation and introduce complexities by creating multiple peaks in the power-voltage curves, ultimately leading to reduction in overall performance. Various mitigation techniques are proposed in the literature but, each exhibits limitations of cost, complexity, and application. Hence, to deal with such problems, in this paper, a ladder architecture for PV arrays is proposed to improve the power generation capability during non-uniform irradiance scenarios by using the charge redistribution approach. Also, the proposed ladder approach ensures the PV array to operates with convex characteristics and eliminates multiple peaks from the power curves. The proposed architecture is modeled and validated in the MATLAB/Simulink platform using a 9x3 array with system size of 8.8kW. The performance comparison under four partial shading cases is carried out with the conventional configurations using various comparison parameters. From the conducted analysis, the approach is found to significantly improve the array power generation and generate convex curves with higher than 99% conversion efficiency. � 2023 IEEE. Final 2024-10-14T03:19:12Z 2024-10-14T03:19:12Z 2023 Conference Paper 10.1109/ETFG55873.2023.10408713 2-s2.0-85185764406 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85185764406&doi=10.1109%2fETFG55873.2023.10408713&partnerID=40&md5=1ae64a6a3ca04ae63c90844343dfe7e1 https://irepository.uniten.edu.my/handle/123456789/34348 Institute of Electrical and Electronics Engineers Inc. Scopus |
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bypass diode mismatch multiple peaks partial shading photovoltaic (PV) Architecture Conversion efficiency Solar power generation Bypass diodes Mismatch Multiple-peak Non-uniform Partial shading Photovoltaic Photovoltaic arrays Photovoltaics Power improvements Power- generations Ladders |
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bypass diode mismatch multiple peaks partial shading photovoltaic (PV) Architecture Conversion efficiency Solar power generation Bypass diodes Mismatch Multiple-peak Non-uniform Partial shading Photovoltaic Photovoltaic arrays Photovoltaics Power improvements Power- generations Ladders Satpathy P.R. Babu Thanikanti S. Krishna Madeti S.R. Sharma R. Ramachandaramurthy V.K. A Ladder Architecture for Power Improvement and Multi-Peaks Elimination in PV Arrays during Non-Uniform Irradiance Scenarios |
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Solar Photovoltaic (PV) arrays are vulnerable to non-uniform irradiances that diminish their power generation and introduce complexities by creating multiple peaks in the power-voltage curves, ultimately leading to reduction in overall performance. Various mitigation techniques are proposed in the literature but, each exhibits limitations of cost, complexity, and application. Hence, to deal with such problems, in this paper, a ladder architecture for PV arrays is proposed to improve the power generation capability during non-uniform irradiance scenarios by using the charge redistribution approach. Also, the proposed ladder approach ensures the PV array to operates with convex characteristics and eliminates multiple peaks from the power curves. The proposed architecture is modeled and validated in the MATLAB/Simulink platform using a 9x3 array with system size of 8.8kW. The performance comparison under four partial shading cases is carried out with the conventional configurations using various comparison parameters. From the conducted analysis, the approach is found to significantly improve the array power generation and generate convex curves with higher than 99% conversion efficiency. � 2023 IEEE. |
author2 |
57195339278 |
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57195339278 Satpathy P.R. Babu Thanikanti S. Krishna Madeti S.R. Sharma R. Ramachandaramurthy V.K. |
format |
Conference Paper |
author |
Satpathy P.R. Babu Thanikanti S. Krishna Madeti S.R. Sharma R. Ramachandaramurthy V.K. |
author_sort |
Satpathy P.R. |
title |
A Ladder Architecture for Power Improvement and Multi-Peaks Elimination in PV Arrays during Non-Uniform Irradiance Scenarios |
title_short |
A Ladder Architecture for Power Improvement and Multi-Peaks Elimination in PV Arrays during Non-Uniform Irradiance Scenarios |
title_full |
A Ladder Architecture for Power Improvement and Multi-Peaks Elimination in PV Arrays during Non-Uniform Irradiance Scenarios |
title_fullStr |
A Ladder Architecture for Power Improvement and Multi-Peaks Elimination in PV Arrays during Non-Uniform Irradiance Scenarios |
title_full_unstemmed |
A Ladder Architecture for Power Improvement and Multi-Peaks Elimination in PV Arrays during Non-Uniform Irradiance Scenarios |
title_sort |
ladder architecture for power improvement and multi-peaks elimination in pv arrays during non-uniform irradiance scenarios |
publisher |
Institute of Electrical and Electronics Engineers Inc. |
publishDate |
2024 |
_version_ |
1814060091246116864 |
score |
13.214268 |