The Research on the Main Control Strategy in the Grid-Connected PV Systems

Bo Hu; Zai Lin Piao; Dong Sheng Zhou

doi:10.4028/www.scientific.net/AMM.448-453.1465

Paper Titles

Study of Al/Organic/ITO Polymer Solar Cell on Glass Substrate
p.1446

The Effect of Diatomite on the Photoelectric Properties of TiO₂ Dye Sensitized Solar Cells
p.1452

A Study on the Micro Heat Pipe Array Based Flat Plate Solar Heating System
p.1457

Evaluation of Large-Scale PV Generation of Baicheng District in Western Jilin Province
p.1461

The Research on the Main Control Strategy in the Grid-Connected PV Systems
p.1465

The Utilization of Technology and Development Prospect of Solar Energy
p.1470

Radial Basis Function Network Based MPPT for Photovoltaic System during Shading Condition
p.1474

Experiment and Simulation for Grid-Connected Photovoltaic Micro-Invereter
p.1480

Performance Detection Device of Solar Lighting System Based on LABVIEW
p.1486

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The Research on the Main Control Strategy in the Grid-Connected PV Systems

Abstract:

The maximum power tracking and Grid-connected is the urgent need to solve the problem which exists in the grid-connected PV system. This article expounds on the maximum power point tracking and grid inverter control strategy. It puts forward the control strategy of researching maximum power point tracking, which is effective in improving solar panels convert solar energy into energy. With the development of photovoltaic technology, requirements of photovoltaic grid control strategy are getting higher and higher. This article examines adaptive disturbance observed method integrated control combined BOOST boosted circuit, in order to achieve the maximum power point tracking for photovoltaic panels .The photovoltaic inverter control structure is to meet the photovoltaic conversion efficiency and power quality of the main technical indicators. It put to use double topology and feed forward decoupling control strategy, which provides protection for the flexible grid.