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Grid-Connected Emergency Back-Up Power Supply

Signal Processing 2019-03-07 v1

Abstract

This paper documents a design and modelling of a grid-connected emergency back-up power supply for medium power applications. There are a rectifier-link boost derived battery charging circuit and a 4-switch push-pull power inverter circuit which are controlled by pulse width modulation (PWM) signals. This paper presents a state averaging model and Laplace domain transfer function of the charging circuit and a switching converter model of the power inverter circuit. A changeover relay based transfer switch controls the power flow towards the utility loads. During off-grid situations, loads are fed power by the proposed inverter circuit and during on-grid situations, battery is charged by an ac-link rectifier-fed boost converter. There is a relay switching circuit to control the charging phenomenon of the battery. The proposed design has been simulated in PLECS and the simulation results corroborate the reliability of the presented framework.

Keywords

Cite

@article{arxiv.1903.02189,
  title  = {Grid-Connected Emergency Back-Up Power Supply},
  author = {Dhiman Chowdhury and Mohammad Sharif Miah and Md. Feroz Hossain and Md. Mostafijur Rahman and Md. Marzan Hossain and Md. Nazim Uddin Sheikh and Md. Mehedi Hasan and Uzzal Sarker and Abu Shahir Md. Khalid Hasan},
  journal= {arXiv preprint arXiv:1903.02189},
  year   = {2019}
}
R2 v1 2026-06-23T07:59:26.910Z