Authors :
Shreya Rao; Deepthi Shetty; Rohan K U; Kishan; Vindhya
Volume/Issue :
Volume 7 - 2022, Issue 5 - May
Google Scholar :
https://bit.ly/3IIfn9N
Scribd :
https://bit.ly/3QMTf3e
DOI :
https://doi.org/10.5281/zenodo.6735306
Abstract :
The Solar photovoltaic (PV) energy has many
advantages which makes it one of the great sources for
power generation. Photovoltaic systems are linked to the
electrical grid with the help of a DC-AC converter and a
DC-AC inverter. The project's major goal is to improve
the grid's interoperability with PV installations. To get the
desired performance, the converter as well as inverter
characteristics are adjusted. The inverter is controlled by
an ARPI (adaptive reference PI) controller, which
improves the conduction of the system by allowing for low
voltage ride through (LVRT). It also smooths out the
oscillations in PV-generated electricity that occur because
of the due to environmental changes. The converter is
utilized to provide MPPT while the PV system is under
varied environmental conditions (MPPT). To assess the
efficiency of the suggested method, a simulation of system
performance employing the suggested ARPI is provided.
Keywords :
PV systems, PI controller, MPPT
The Solar photovoltaic (PV) energy has many
advantages which makes it one of the great sources for
power generation. Photovoltaic systems are linked to the
electrical grid with the help of a DC-AC converter and a
DC-AC inverter. The project's major goal is to improve
the grid's interoperability with PV installations. To get the
desired performance, the converter as well as inverter
characteristics are adjusted. The inverter is controlled by
an ARPI (adaptive reference PI) controller, which
improves the conduction of the system by allowing for low
voltage ride through (LVRT). It also smooths out the
oscillations in PV-generated electricity that occur because
of the due to environmental changes. The converter is
utilized to provide MPPT while the PV system is under
varied environmental conditions (MPPT). To assess the
efficiency of the suggested method, a simulation of system
performance employing the suggested ARPI is provided.
Keywords :
PV systems, PI controller, MPPT