Authors :
Chaitanya Umesh Patil; Adinath Ganesh Ugale; Sakshi Rajendra Thorat; Shejal Sanjay Waghmare; Vasudev S. Ponkshe
Volume/Issue :
Volume 9 - 2024, Issue 4 - April
Google Scholar :
https://tinyurl.com/4j4dzvuc
Scribd :
https://tinyurl.com/2bvbz3ct
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24APR1680
Abstract :
Grid-forming and grid-following inverters
play crucial roles in modern power systems, each with
distinct functionalities and advantages. This research
paper aims to offer a thorough comparative analysis of
these two inverter types, concentrating particularly on
two grid-following methods: Droop and VOC. The paper
explores the principles, merits, and demerits of each
method and compares simulation results to assess their
performance under overload conditions. The findings
contribute to a deeper understanding of inverter
technologies and inform decision-making in power
system design and implementation.
Keywords :
Grid-Forming Inverters, Grid-Following Inverters, Droop Method, VOC Method, Power System Stability.
Grid-forming and grid-following inverters
play crucial roles in modern power systems, each with
distinct functionalities and advantages. This research
paper aims to offer a thorough comparative analysis of
these two inverter types, concentrating particularly on
two grid-following methods: Droop and VOC. The paper
explores the principles, merits, and demerits of each
method and compares simulation results to assess their
performance under overload conditions. The findings
contribute to a deeper understanding of inverter
technologies and inform decision-making in power
system design and implementation.
Keywords :
Grid-Forming Inverters, Grid-Following Inverters, Droop Method, VOC Method, Power System Stability.
