Maximum Power Point Tracking Algorithm Based on Fuzzy Logic Control Using P-V and I-V Characteristics for PV Array
This paper presents a fuzzy logic-based maximum power point tracking (FL-MPPT) algorithm that employs both P-V and I-V photovoltaic (PV) array characteristics. In the given FL-MPPT algorithm, a new parameter ' E a ' is employed, which is derived using I-V characteristics instead of the cha...
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| Published in | IEEE transactions on industry applications Vol. 59; no. 4; pp. 4572 - 4583 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.07.2023
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0093-9994 1939-9367 |
| DOI | 10.1109/TIA.2023.3272536 |
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| Abstract | This paper presents a fuzzy logic-based maximum power point tracking (FL-MPPT) algorithm that employs both P-V and I-V photovoltaic (PV) array characteristics. In the given FL-MPPT algorithm, a new parameter ' E a ' is employed, which is derived using I-V characteristics instead of the change in slope of P-V characteristics employed in conventional FL-MPPT algorithms . The usage of parameter ' E a ' makes the MPPT algorithm more precise in computing change in duty ratio and increases the tracking performance for all environmental conditions (ECs). Further, the usage of parameter ' E a ' supports the algorithm in distinguishing whether the operating point is near the maximum power point region or away from it (i.e., in the current source region (CSR) or in the voltage source region (VSR)). Thus, the proposed algorithm performs well in tracking peak power during low ECs, where conventional algorithms usually fail. Moreover, the conventional algorithms also fail to detect the operating point in CSR during step-changing ECs from high to low irradiance. The manuscript gives all the details of the conventional, and the proposed FL-MPPT algorithm with respect to the analysis of membership functions. In addition, the simulation and experimental results are presented for both the conventional and the proposed FL-MPPT algorithms to support the claims. |
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| AbstractList | This paper presents a fuzzy logic-based maximum power point tracking (FL-MPPT) algorithm that employs both P-V and I-V photovoltaic (PV) array characteristics. In the given FL-MPPT algorithm, a new parameter ‘ Ea ’ is employed, which is derived using I-V characteristics instead of the change in slope of P-V characteristics employed in conventional FL-MPPT algorithms . The usage of parameter ‘ Ea ’ makes the MPPT algorithm more precise in computing change in duty ratio and increases the tracking performance for all environmental conditions (ECs). Further, the usage of parameter ‘ Ea ’ supports the algorithm in distinguishing whether the operating point is near the maximum power point region or away from it (i.e., in the current source region (CSR) or in the voltage source region (VSR)). Thus, the proposed algorithm performs well in tracking peak power during low ECs, where conventional algorithms usually fail. Moreover, the conventional algorithms also fail to detect the operating point in CSR during step-changing ECs from high to low irradiance. The manuscript gives all the details of the conventional, and the proposed FL-MPPT algorithm with respect to the analysis of membership functions. In addition, the simulation and experimental results are presented for both the conventional and the proposed FL-MPPT algorithms to support the claims. This paper presents a fuzzy logic-based maximum power point tracking (FL-MPPT) algorithm that employs both P-V and I-V photovoltaic (PV) array characteristics. In the given FL-MPPT algorithm, a new parameter ' E a ' is employed, which is derived using I-V characteristics instead of the change in slope of P-V characteristics employed in conventional FL-MPPT algorithms . The usage of parameter ' E a ' makes the MPPT algorithm more precise in computing change in duty ratio and increases the tracking performance for all environmental conditions (ECs). Further, the usage of parameter ' E a ' supports the algorithm in distinguishing whether the operating point is near the maximum power point region or away from it (i.e., in the current source region (CSR) or in the voltage source region (VSR)). Thus, the proposed algorithm performs well in tracking peak power during low ECs, where conventional algorithms usually fail. Moreover, the conventional algorithms also fail to detect the operating point in CSR during step-changing ECs from high to low irradiance. The manuscript gives all the details of the conventional, and the proposed FL-MPPT algorithm with respect to the analysis of membership functions. In addition, the simulation and experimental results are presented for both the conventional and the proposed FL-MPPT algorithms to support the claims. |
| Author | Singh, Varsha Jain, Sachin Pandey, Avinash Kumar |
| Author_xml | – sequence: 1 givenname: Avinash Kumar surname: Pandey fullname: Pandey, Avinash Kumar email: avinash.pandey2711@gmail.com organization: Department of Electrical Engineering, National Institute of Technology Raipur, Raipur, India – sequence: 2 givenname: Varsha orcidid: 0000-0001-5835-5400 surname: Singh fullname: Singh, Varsha email: vsingh.ele@nitrr.ac.in organization: Department of Electrical Engineering, National Institute of Technology Raipur, Raipur, India – sequence: 3 givenname: Sachin orcidid: 0000-0003-0978-4035 surname: Jain fullname: Jain, Sachin email: sjain.ee@nitrr.ac.in organization: Department of Electrical Engineering, National Institute of Technology Raipur, Raipur, India |
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| SubjectTerms | Algorithms Arrays Classification algorithms Current sources Current voltage characteristics Environmental conditions (ECs) Fuzzy control Fuzzy logic fuzzy logic-based maximum power point tracking (FL-MPPT) I-V characteristics Irradiance Maximum power point trackers Maximum power tracking P-V characteristics Parameters Photovoltaic (PV) Photovoltaic cells Photovoltaic systems Resource management Standard test condition (STC) Temperature Voltage |
| Title | Maximum Power Point Tracking Algorithm Based on Fuzzy Logic Control Using P-V and I-V Characteristics for PV Array |
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