G. Petrone scite author profile

Maximum power point tracking (MPPT) techniques are used in photovoltaic (PV) systems to maximize the PV array output power by tracking continuously the maximum power point (MPP) which depends on panels temperature and on irradiance conditions. The issue of MPPT has been addressed in different ways in the literature but, especially for low-cost implementations, the perturb and observe (P&O) maximum power point tracking algorithm is the most commonly used method due to its ease of implementation. A drawback of P&O is that, at steady state, the operating point oscillates around the MPP giving rise to the waste of some amount of available energy; moreover, it is well known that the P&O algorithm can be confused during those time intervals characterized by rapidly changing atmospheric conditions. In this paper it is shown that, in order to limit the negative effects associated to the above drawbacks, the P&O MPPT parameters must be customized to the dynamic behavior of the specific converter adopted. A theoretical analysis allowing the optimal choice of such parameters is also carried out. Results of experimental measurements are in agreement with the predictions of theoretical analysis

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Power Electronics and Control Techniques for Maximum Energy Harvesting in Photovoltaic Systems

Femia¹,

Petrone²,

Spagnuolo³

et al. 2017

224

264

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Distributed maximum power point tracking of photovoltaic arrays: Novel approach and system analysis

Femia

Lisi

Petrone

et al. 2008

IEEE Trans. Ind. Electron.

504

218

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Abstract-One of the major drawbacks of photovoltaic (PV) systems is represented by the effect of module mismatching and of partial shading of the PV field. Distributed maximum power point tracking (DMPPT) is a very promising technique that allows the increase of efficiency and reliability of such systems. Modeling and designing a PV system with DMPPT is remarkably more complex than implementing a standard MPPT technique. In this paper, a DMPPT system for PV arrays is proposed and analyzed. A dc and small-signal ac model is derived to analyze steady-state behavior, as well as dynamics and stability, of the whole system. Finally, simulation results are reported and discussed.

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Reliability Issues in Photovoltaic Power Processing Systems

Petrone

Spagnuolo

Teodorescu

et al. 2008

IEEE Trans. Ind. Electron.

523

204

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A Technique for Improving P&O MPPT Performances of Double-Stage Grid-Connected Photovoltaic Systems

Femia

Petrone

Spagnuolo

et al. 2009

IEEE Trans. Ind. Electron.

411

187

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In double-stage grid-connected photovoltaic (PV) inverters, the dynamic interactions among the dc/dc and dc/ac stages and the maximum power point tracking (MPPT) controller may reduce the system performances. In this paper, the detrimental effects, particularly in terms of system efficiency and MPPT performances, of the oscillations of the PV array voltage, taking place at the second harmonic of the grid frequency are evidenced. The use of a proper compensation network acting on the error signal between a reference signal provided by theMPPT controller and a signal that is proportional to the PV array voltage is proposed. The guidelines for the proper joint design of the compensation network (which is able to cancel out the PV voltage oscillations) and of the main MPPT parameters are provided in this paper. Simulation results and experimental measurements confirm the effectiveness of the proposed approach

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G. Petrone

Optimization of Perturb and Observe Maximum Power Point Tracking Method

Power Electronics and Control Techniques for Maximum Energy Harvesting in Photovoltaic Systems

Distributed maximum power point tracking of photovoltaic arrays: Novel approach and system analysis

Reliability Issues in Photovoltaic Power Processing Systems

A Technique for Improving P&O MPPT Performances of Double-Stage Grid-Connected Photovoltaic Systems

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