Second-order sequence filter based control algorithm for single-phase grid interfaced solar PV system

This work deals with an implementation of a unique control approach for the power quality enhancement in solar photovoltaic (PV) based grid interfaced system. In this work, a robust control technique with strong filtering capabilities is implemented. A single-phase two-stage grid interacted solar PV...

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Bibliographic Details
Published in:IET generation, transmission & distribution transmission & distribution, 2019-06, Vol.13 (12), p.2382-2390
Main Authors: Rajput, Aakanksha, Beniwal, Neha, Singh, Bhim, Mishra, Sukumar
Format: Article
Language:English
Subjects:
boost converter
grid current
harmonics elimination
interfacing inductor
maximum power point trackers
maximum power point tracking technique
order sequence filter based control algorithm
photovoltaic power systems
power convertors
power factor correction
power generation control
power grids
power quality enhancement features
power supply quality
Research Article
ripple filter
robust control
robust control technique
second‐order sequence filter
single‐phase grid interfaced solar PV system
single‐phase two‐stage grid
solar photovoltaic based grid
solar PV array
solar PV power
solar PV topology
strong filtering capabilities
test system
unique control approach
voltage control
voltage source converter
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Summary:This work deals with an implementation of a unique control approach for the power quality enhancement in solar photovoltaic (PV) based grid interfaced system. In this work, a robust control technique with strong filtering capabilities is implemented. A single-phase two-stage grid interacted solar PV topology is considered with a second-order sequence filter as a test system for the validation of the power quality enhancement features. The system constitutes a PV array, a boost converter, a DC link capacitance, a voltage source converter (VSC), an interfacing inductor and a ripple filter. A boost converter is used at a primary stage of proposed topology, which supports the extraction of maximum power from the solar PV array. In addition, the VSC feeds the solar PV power into the grid. It also provides harmonics elimination and power factor correction. A new maximum power point tracking technique avoiding a drift feature is adopted for the fast dynamic performance. The implementation of the solar PV system is performed and the harmonic profile of grid current is observed in compliance to the IEEE-519 standard.
ISSN:1751-8687
1751-8695
1751-8695
DOI:10.1049/iet-gtd.2018.6560