On the testing, characterization, and evaluation of PV inverters and dynamic MPPT performance under real varying operating conditions
TLDR
This paper tries to contribute to the analysis of the problem of dynamic characterization of photovoltaic inverters by means of an electronic system that both measures the real evolution of the characteristic curves of PV arrays at outdoor operation and then recreates them at the laboratory to test PV inverters.Abstract:
The increasing number of photovoltaic inverters that are coming on to the PV market stresses the need to carry out a dynamic characterization of these elements and their maximum power point tracking (MPPT) algorithms under real operating conditions. In order to make these conditions repeatable at the laboratory, PV array simulators are used. However, actual simulators, including the commercial simulators, recreate only a single or small set of PV array characteristic curves in which quite commonly theoretical calculations are included in order to simulate irradiance and temperature artificial variations. This is far from being a recreation of the real and long dynamic behavior of a PV array or generator. The testing and evaluation of the performance of PV inverters and MPPT algorithms has to be carried out when the PV system moves dynamically according to real operating conditions, including processes such as rapidly changing atmospheric conditions, partial shadows, dawn, and nightfall. This paper tries to contribute to the analysis of this problem by means of an electronic system that both measures the real evolution of the characteristic curves of PV arrays at outdoor operation and then recreates them at the laboratory to test PV inverters. This way the equipment can highlight the different performances of PV inverters and MPPT techniques when they operate under real operating conditions. As an example, two commercial inverters are tested and analyzed under the recreated behavior of a PV generator during 2 singular days that include processes of partial shading and fast irradiance variations. Copyright © 2007 John Wiley & Sons, Ltd.read more
Citations
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Journal ArticleDOI
Modulation Techniques to Eliminate Leakage Currents in Transformerless Three-Phase Photovoltaic Systems
Marcelo C. Cavalcanti,K.C. de Oliveira,Francisco A. S. Neves,Gustavo M. S. Azevedo,F.C. Camboim +4 more
TL;DR: Comparisons among the modulation techniques are discussed, and it is proven that the proposed modulation for two- and three-level inverters presents the best results.
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Eliminating Leakage Currents in Neutral Point Clamped Inverters for Photovoltaic Systems
TL;DR: The main contribution of this paper is the proposal of new modulation techniques for three-phase transformerless neutral point clamped inverters to eliminate leakage currents in photovoltaic systems without requiring any modification on the multilevel inverter or any additional hardware.
Comparison study of maximum power point tracker techniques for PV systems
H.N. Zainudin,Saad Mekhilef +1 more
TL;DR: Comparisons are presented between two most popular algorithms technique which is incremental conductance algorithm and perturb and observe algorithm for performance evaluation on energy point.
Journal ArticleDOI
Modulation for Three-Phase Transformerless Z-Source Inverter to Reduce Leakage Currents in Photovoltaic Systems
Fabricio Bradaschia,Marcelo C. Cavalcanti,Pedro E. P. Ferraz,Francisco A. S. Neves,Euzeli Cipriano dos Santos,J. H. G. M. da Silva +5 more
TL;DR: A modified Z-source inverter with specific modulation techniques is proposed to reduce leakage currents in three-phase transformerless photovoltaic (PV) systems and results are obtained to validate the theoretical and simulation models.
Journal ArticleDOI
A review of maximum power point tracking methods of PV power system at uniform and partial shading
TL;DR: A review of different MPPT methods is discussed in this article, where the advantages and shortcomings of abovementioned MPPT algorithms are compared to find the optimal MPPT during partial shading conditions, such as slow tracking speed, low tracking efficiency, which fail to extract maximum power at complex partial shading.
References
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Journal ArticleDOI
Maximum photovoltaic power tracking: an algorithm for rapidly changing atmospheric conditions
TL;DR: In this article, the authors developed an incremental conductance (IncCond) algorithm to track the maximum power operating point (MPOP) of photovoltaic (PV) power generation systems.
Journal ArticleDOI
Development of a photovoltaic array model for use in power-electronics simulation studies
J.A. Gow,C.D. Manning +1 more
TL;DR: In this article, the authors present a circuit-based simulation model for a PV cell in order to allow the interaction between a proposed power converter (with its associated control arrangement) and the PV array to be studied.
Proceedings ArticleDOI
Inverters for single-phase grid connected photovoltaic systems-an overview
TL;DR: An overview on developments and a summary of the state-of-the-art of inverter technology in Europe for single-phase grid-connected photovoltaic (PV) systems for power levels up to 5 kW is provided.
Journal ArticleDOI
Partial shadowing of photovoltaic arrays with different system configurations: literature review and field test results
TL;DR: The results indicate that with obstacles of irregular shape being close to the photovoltaic array, simulation estimates the shadowing losses rather imprecise, but at array positions mainly suffering from a reduction of the visible horizon by obstacles far away from the photvoltaic arrays, a simulation returns good results.
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