Fractional order pole fixed second order generalized integrator based control for grid connected solar photovoltaic system

Manoj Badoni,; Alka Singh,; Tripathi, Ravi Nath; トリパシ, ラビ ナス; Rajeev Kumar,; Vijay Kumar Singh,

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Fractional order pole fixed second order generalized integrator based control for grid connected solar photovoltaic system

http://hdl.handle.net/10228/0002001899

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2025-08-21

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Fractional order pole fixed second order generalized integrator based control for grid connected solar photovoltaic system

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著者

Manoj Badoni,
Alka Singh,
トリパシ, ラビナス

WEKO 35480
Scopus著者ID 56111717200
ORCiD 0000-0002-0490-0976
九工大研究者情報 100001665

en	Tripathi, Ravi Nath
ja	トリパシ, ラビナス

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Rajeev Kumar,
Vijay Kumar Singh,

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http://creativecommons.org/licenses/by-nc-nd/4.0/

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This is an open access article under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non-commercial and no modifications or adaptations are made.
Copyright (c) 2024 The Author(s). IET Power Electronics published by John Wiley & Sons Ltd on behalf of The Institution of Engineering and Technology.

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Abstract

内容記述

In this article, the development of multi-functional grid connected solar photovoltaic (PV) system using improved Fractional order Control theory-based Pole fixed Second Order Generalized Integrator (FO-PFSOGI) is proposed. The fractional order (FO) control technique offers an advantage to adjust the fixed structure of the integer order and provide additional degree of freedom to achieve accurate response during the system operation. The FO-PFSOGI control technique is used to extricate fundamental constituent of the non-sinusoidal load current. The PV system is competent of feeding the local load requisite and may also inject surplus power into the grid. The voltage source converter (VSC) utilized in the grid-connected system can also be operated as power quality compensator, taking care of harmonics, unbalancing and excess reactive power demand of the local load. The feasibility of multifunctional operations of the converter is established in this article, thus achieving maximum utilization of the power electronics used in the system and reducing the overall cost. A performance comparison of the developed control technique is presented with the conventional techniques in terms of harmonic compensation, weight convergence and computational complexity. The implementation of the controller is modest and extracts fundamental quantities without any phase delay under different loading conditions. The developed system is validated using both simulation and experimental study. A scaled down experimental setup of grid-connected PV system is implemented in the laboratory and real time performance of the FO-PFSOGI is demonstrated using variations in system load and PV irradiance.

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書誌情報

en : IET Power Electronics

巻 17, 号 16, p. 3057-3070, 発行日 2024-12-16

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Wiley

言語

eng

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http://purl.org/coar/resource_type/c_6501

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http://purl.org/coar/version/c_970fb48d4fbd8a85

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2025-08-21 12:00:06.351438

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Fractional order pole fixed second order generalized integrator based control for grid connected solar photovoltaic system

× Manoj Badoni,

× Alka Singh,

× トリパシ, ラビナス

× Rajeev Kumar,

× Vijay Kumar Singh,

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インデックスリンク

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アイテム

Fractional order pole fixed second order generalized integrator based control for grid connected solar photovoltaic system

× Manoj Badoni,

× Alka Singh,

× トリパシ, ラビ ナス

× Rajeev Kumar,

× Vijay Kumar Singh,

Versions

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× トリパシ, ラビナス