Iván Patrao scite author profile

In order to improve the efficiency of a photovoltaic system, it is possible to use a transformerless photovoltaic inverter. However, this topology needs to be studied in detail, as it presents some problems related to the galvanic connection between the grid and the photovoltaic generator (e.g. efficiency degradation and safety problems).In this paper, a review of grid-connected single-phase photovoltaic inverters based on transformerless topologies has been carried out. On the one hand, some alternatives based on classical topologies have been presented. On the other hand, alternatives based on multi-level inverter topologies have been studied, showing up that no leakage current is generated in comparison to classical topologies.

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An Adaptive Control System for Three-Phase Photovoltaic Inverters Working in a Polluted and Variable Frequency Electric Grid

González-Espín

Garcerá

Patrao

et al. 2012

IEEE Trans. Power Electron.

110

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Grid‐tie inverter topology with maximum power extraction from two photovoltaic arrays

Patrao¹,

Garcerá²,

Figueres³

et al. 2014

IET Renewable Power Generation

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This study presents a transformerless topology for a grid-tied single-phase inverter capable of performing the simultaneous maximum power point tracking of two independent and series connected photovoltaic sources. This topology is derived from the neutral point clamped multilevel inverter in half-bridge configuration. The use of a half-bridge topology reduces the leakage current to very low values, whereas the multilevel topology presents an output voltage quality similar to that of a full-bridge inverter. To simultaneously track the maximum power of both photovoltaic sources, a generation control circuit is used. With this topology, it is possible to improve the performance of the converter under partial shadowing conditions, very common in photovoltaic facilities operating in residential areas. A 5 kW prototype of this topology has been implemented and tested in the laboratory.

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A low-cost photovoltaic emulator for static and dynamic evaluation of photovoltaic power converters and facilities

González-Medina

Patrao

Garcerá

et al. 2012

Prog. Photovolt: Res. Appl.

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In testing maximum power point tracking (MPPT) algorithms running on electronic power converters for photovoltaic (PV) applications, either a PV energy source (PV module or PV array) or a PV emulator is required. With a PV emulator, it is possible to control the testing conditions with accuracy so that it is the preferred option. The PV source is modeled as a current source; thus, the emulator has to work as a current source dependent on its output voltage. The proposed emulator is a buck converter with an average current mode control loop, which allows testing the static and dynamic performance of PV facilities up to 3 kW. To validate the concept, the emulator is used to evaluate the MPPT algorithm of a 230-W experimental microinverter working from a single PV module.

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Iván Patrao

Microgrid architectures for low voltage distributed generation

Transformerless topologies for grid-connected single-phase photovoltaic inverters

An Adaptive Control System for Three-Phase Photovoltaic Inverters Working in a Polluted and Variable Frequency Electric Grid

Grid‐tie inverter topology with maximum power extraction from two photovoltaic arrays

A low-cost photovoltaic emulator for static and dynamic evaluation of photovoltaic power converters and facilities

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