An improved sliding mode control–based GMPPT algorithm for photovoltaic system

Nadeem, Ahsan; Sher, Hadeed Ahmed; Murtaza, Ali Faisal; Ahmed, Nisar; Al‐Durra, Ahmed

doi:10.1177/01423312221140278

Cited by 5 publications

(2 citation statements)

References 24 publications

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“…One of the significant issues faced by electronic circuits is transient overshoot. It poses a threat of abrupt drift that results in performance degradation and sometimes unbearable loss in the circuit [49][50][51]. The number of fluctuations in the output response increases with the order of the circuit.…”

Section: Simulation Results and Discussionmentioning

confidence: 99%

State-Space Modeling, Design, and Analysis of the DC-DC Converters for PV Application: A Review

Khan,

Murtaza,

Noman

et al. 2023

Sustainability

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Small-signal models of dc-dc converters are often designed using a state-space averaging approach. This design can help discuss and derive the control-oriented and other frequency-domain attributes, such as input or output impedance parameters. This paper aims to model the dc-dc converters for PV application by employing a capacitor on the input side. The modeling, design, and analysis of the dc-dc converters regarding the input capacitor is limited in the literature. Five dc-dc converters, including buck, boost, buck-boost, ĆUK, and SEPIC converters, are designed and implemented using the state-space average modeling approach in MATLAB/Simulink. The circuit topology of each converter and the state-space matrices are derived considering every constraint. A rigorous and compelling analysis of the dc-dc converters is carried out to compare system stability and, ultimately, the dynamic performance. The output of the resulting small-signal models has been demonstrated in the time-domain against topology simulations. All the converters are exposed to unpredictable weather conditions and the simulations are carried out in the PSIM software. The perturb and observe (P&O) maximum power point tracking (MPPT) algorithm is applied in all the converters to ensure maximum power point (MPP) achievement. The results showcase that the boost converter outperforms all other converters in terms of stability, settling time, and overshoot.

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Section: Simulation Results and Discussionmentioning

confidence: 99%

State-Space Modeling, Design, and Analysis of the DC-DC Converters for PV Application: A Review

Khan,

Murtaza,

Noman

et al. 2023

Sustainability

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“…Also, optimization algorithm can be used for designing MPPT controllers based on intelligent methods [36][37][38]. In [39], an improved sliding mode control-based global maximum power point tracking (GMPPT) algorithm was used for photovoltaic (PV) systems. The algorithm is designed to overcome the limitations of traditional GMPPT algorithms, such as slow tracking speed and sensitivity to model parameter changes.…”

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confidence: 99%

An Innovative MPPT Method Based on the Estimated Model of the Photovoltaic Cell considering the Environmental Conditions

Karizaki,

Ahmadi Kamarposhti,

Sedighi

2023

International Journal of Energy Research

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In this paper, a novel adaptive photovoltaic maximum power point tracking (MPPT) circuit is proposed, called AT2MPPT. The AT2MPPT circuit is based on a type two fuzzy logic set and utilizes a detailed two-diode model of a solar cell, as well as an innovative hybrid algorithm for designing the MPPT circuit. The effects of environmental conditions such as azimuth, wind speed, wind direction, and irradiation, as well as the uncertainty of radiation intensity, are taken into account in the solar cell model. It is demonstrated that changes in environmental conditions can cause up to a 20% change in the PV parameters. To optimize the AT2MPPT parameters and fuzzy membership functions (MFs), a hybrid lightning search algorithm and whale optimization algorithm (hLSA-WOA) are proposed. The accuracy of the hLSA-WOA is evaluated by comparing its results with those of other optimization algorithms on 10 standard benchmarks. The simulation results indicate that the hLSA-WOA has high accuracy and is nontrapping in local optima. Finally, the proposed AT2MPPT circuit is used to track the MPPT of a PV array in partial shade, and its performance is compared with that of P&O and fuzzy MPPT circuits. The results confirm the superior performance of the AT2MPPT circuit, which produces 1.1% more power than the other two circuits. Additionally, the AT2MPPT circuit has lower power ripple and tracking time compared to perturb, observation, and fuzzy MPPT circuits.

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