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AuthorSamiullah, Md
AuthorAl-Hitmi, Mohammed A.
AuthorIqbal, Atif
AuthorAshraf, Imtiaz
Available date2024-06-13T04:13:58Z
Publication Date2023
Publication NameEnergy Reports
ResourceScopus
Identifierhttp://dx.doi.org/10.1016/j.egyr.2023.06.042
ISSN23524847
URIhttp://hdl.handle.net/10576/56127
AbstractThis paper presents a novel hybrid converter which is capable of carrying AC and DC loads simultaneously at different ports. The converter is designed by using a full bridge inverter at the nodes between the active switched inductor based high gain DC-DC converter. After inserting impedance into the current path, the inherent protection against the shoot through that often happens with a voltage source converter (VSI) is established. In addition, the modulation is such that the converter does not have to rely on shoot through to work, like most hybrid converters do. Instead, an extra charging mode has been added. This not only increases the voltage gain but also provides a flexible control with two duty ratios. The steady state operation of the converter is analyzed in five modes and their voltage relations are found out. A suitable pulse width modulation is realized to generate the different modes of operations. A prototype of the proposed converter is developed in the laboratory which is tested for suitable duty ratios operating for a maximum power of 600 W when the input voltage is maintained at 32 V. The converter finds its suitability in the nanogrid/microgrid where different loads are to be supplied from a single source.
SponsorThis publication was made possible by Qatar University Research grant [ QUCP-CENG-2022-571 ] from the Qatar University, Qatar. The statements made herein are solely the responsibility of the authors. he APC for the article is funded by the Qatar National Library, Doha, Qatar .
Languageen
PublisherElsevier
SubjectHigh gain
Hybrid converter
Nanogrid
Shoot through
Switched inductor
TitleInherently boosted switched inductor hybrid converter with AC and DC outputs for DC nanogrid applications
TypeArticle
Pagination360-367
Volume Number10
dc.accessType Open Access


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