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Bibliographic Details
Main Authors: Anees, Muhammad, Qi, Lisa, Schweizer, Mario, Lukic, Srdjan
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.19573
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author Anees, Muhammad
Qi, Lisa
Schweizer, Mario
Lukic, Srdjan
author_facet Anees, Muhammad
Qi, Lisa
Schweizer, Mario
Lukic, Srdjan
contents DC microgrids are getting more and more applications due to simple converters, only voltage control and higher efficiencies compared to conventional AC grids. Droop control is a well know decentralized control strategy for power sharing among converter interfaced sources and loads in a DC microgrid. This work compares the stability assessment and control of four types of droops for boost converters using the concept of passivity. EN standard 50388-2 for railway systems provides a reference to ensure system stability in perspectives of converters and system integration. Low pass filter (LPF) in the feedback of the droop control is used to ensure converter passivity. Bus impedance is derived to ensure system passivity with less conservativeness. Analytical approach for design of passive controller for all four types of droops is verified through time domain simulations of a single boost converter based microgrid feeding a Constant Power Load (CPL).
format Preprint
id arxiv_https___arxiv_org_abs_2407_19573
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Passivity based Stability Assessment for Four types of Droops for DC Microgrids
Anees, Muhammad
Qi, Lisa
Schweizer, Mario
Lukic, Srdjan
Systems and Control
DC microgrids are getting more and more applications due to simple converters, only voltage control and higher efficiencies compared to conventional AC grids. Droop control is a well know decentralized control strategy for power sharing among converter interfaced sources and loads in a DC microgrid. This work compares the stability assessment and control of four types of droops for boost converters using the concept of passivity. EN standard 50388-2 for railway systems provides a reference to ensure system stability in perspectives of converters and system integration. Low pass filter (LPF) in the feedback of the droop control is used to ensure converter passivity. Bus impedance is derived to ensure system passivity with less conservativeness. Analytical approach for design of passive controller for all four types of droops is verified through time domain simulations of a single boost converter based microgrid feeding a Constant Power Load (CPL).
title Passivity based Stability Assessment for Four types of Droops for DC Microgrids
topic Systems and Control
url https://arxiv.org/abs/2407.19573