Global Maximum Power Point Tracking under Shading Condition and Hotspot Detection Algorithms for Photovoltaic Systems

Gosumbonggot, Jirada; Fujita, Goro

doi:10.3390/en12050882

Cited by 31 publications

(20 citation statements)

References 40 publications

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“…Among all the MPPT technologies, the P&O is the most commonly used technique because of its simplicity and accurate steady-state response but the drawback of this method is that it is applicable only at steady-state operating conditions of a solar PV system [28]. In order to overcome the drawback of conventional P&O, a variable step size P& O MPPT technique is used in article [54] to track MPP.…”

Section: Variable Step Size Perturb and Observe Mppt Techniquementioning

confidence: 99%

“…Switch OFF condition : In both the conditions, the output voltage of the SSBC is the sum of input voltage (V PV ), and the output voltage across the capacitors (V Ca , V Cb ). From Equations (27) and (28), the voltage gain of the SSBC is derived as,…”

Section: Stackable Switching Boost Convertermentioning

confidence: 99%

“…Similarly, the inductor Lb discharges the energy with a slope of VCb/Lb. The switching state of the converter when the switch is in OFF condition is given in Equation(28). Switch OFF condition: conditions, the output voltage of the SSBC is the sum of input voltage (VPV), and the…”

mentioning

confidence: 99%

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Different Conventional and Soft Computing MPPT Techniques for Solar PV Systems with High Step-Up Boost Converters: A Comprehensive Analysis

2020

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Solar photovoltaic (PV) systems are attracting a huge focus in the current energy scenario. Various maximum power point tracking (MPPT) methods are used in solar PV systems in order to achieve maximum power. In this article, a clear analysis of conventional MPPT techniques such as variable step size perturb and observe (VSS-P&O), modified incremental conductance (MIC), fractional open circuit voltage (FOCV) has been carried out. In addition, the soft computing MPPT techniques such as fixed step size radial basis functional algorithm (FSS-RBFA), variable step size radial basis functional algorithm (VSS-RBFA), adaptive fuzzy logic controller (AFLC), particle swarm optimization (PSO), and cuckoo search (CS) MPPT techniques are presented along with their comparative analysis. The comparative analysis is done under static and dynamic irradiation conditions by considering algorithm complexity, tracking speed, oscillations at MPP, and sensing parameters. The single-diode model PV panel and double-diode model PV panel are also compared in terms of fill factor (FF) and maximum power extraction. Clear insight is presented supporting the suitability of MPPT techniques for different types of converter configurations.

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Section: Variable Step Size Perturb and Observe Mppt Techniquementioning

confidence: 99%

Section: Stackable Switching Boost Convertermentioning

confidence: 99%

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Different Conventional and Soft Computing MPPT Techniques for Solar PV Systems with High Step-Up Boost Converters: A Comprehensive Analysis

2020

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“…Highly conductive polyethylene materials have already been successfully used in conduction cooling of superconducting magnets and can help in mitigating formation of hot spots in photovoltaic solar cells, which decrease the cells' lifetime and decrease their operational efficiency. [75][76][77][78] High thermal conductivity of composite polyethylene particle films has also been demonstrated, which promotes lateral heat spreading away from the locally heated area and allows making use of the larger area for passive cooling through radiation. 48 Wearable technologies can benefit from integrating such thermally conductive films and fibers into clothes to either deliver thermal energy to toes and fingers in cold environments or to remove heat from the armpit areas when the temperature rises.…”

Section: Unique Optical Properties Of Polyethylene Fuel Applications mentioning

confidence: 99%

An ode to polyethylene

Boriskina

2019

MRS Energy & Sustainability

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“…Also, combination of I-V characteristic method and MPPT algorithm for hotspot detection has been considered. 23 In Ref. 24, periodic examinations of I-V characteristic have been considered to detect hotspot from low-resistance defects in PV modules.…”

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confidence: 99%

A current based approach for hotspot detection in photovoltaic strings

Karimi

Samet

Ghanbari

et al. 2020

Int Trans Electr Energ Syst

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Summary Generally, photovoltaic (PV) panels are affected by variety of internal and external faults. Hotspot is regarded as an internal and permanent fault that is highly destructive in solar panels. In this study, a novel approach based on PV output current trajectory is proposed for hotspot detection in PV strings. The hotspot detection criterion consists of two parts. First, the Teager‐Kaiser energy operator technique is applied for current change detection. Then, a novel hotspot detection index based on the cumulative rate slope calculation of PV current is applied. The proposed index has the advantage to distinguish between hotspot condition and other faults only by utilization of current measurement. The thermal behavior and the current trajectory are evaluated during hotspot condition. It is shown that the current characteristic of the cell during hotspot condition has a unique behavior, which is also justified by mathematical analysis. Different shading scenarios are considered in this study. However, the proposed approach can easily detect the one which cause hotspot condition and distinguish it from other type of scenarios. Therefore, the proposed approach can detect hotspot fault before the solar cell destruction. MATLAB simulations are applied in order to confirm the effectiveness of the proposed approach.

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Global Maximum Power Point Tracking under Shading Condition and Hotspot Detection Algorithms for Photovoltaic Systems

Cited by 31 publications

References 40 publications

Different Conventional and Soft Computing MPPT Techniques for Solar PV Systems with High Step-Up Boost Converters: A Comprehensive Analysis

Different Conventional and Soft Computing MPPT Techniques for Solar PV Systems with High Step-Up Boost Converters: A Comprehensive Analysis

An ode to polyethylene

A current based approach for hotspot detection in photovoltaic strings

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