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AuthorAli, A.J.
AuthorKhalily, M.
AuthorSattarzadeh, A.
AuthorMassoud, Ahmed
AuthorHasna, M.O.
AuthorKhattab, T.
AuthorYurduseven, O.
AuthorTafazolli, R.
Available date2022-03-23T06:57:29Z
Publication Date2021
Publication NameIEEE Access
ResourceScopus
Identifierhttp://dx.doi.org/10.1109/ACCESS.2021.3104098
URIhttp://hdl.handle.net/10576/28723
AbstractAlthough Geostationary-Equatorial-Orbit (GEO) satellites have achieved significant success in conducting space missions, they cannot meet the 5G latency requirements due to the far distance from the earth surface. Therefore, Low-Earth-Orbit (LEO) satellites arise as a potential solution for the latency problem. Nevertheless, integrating the 5G terrestrial networks with LEO satellites puts an increased burden on the satellites' limited budget, which stems from their miniature sizes, restricted weights, and the small available surface for solar harvesting in the presence of additional required equipment. This paper aims to design the Electrical Power System (EPS) for 5G LEO satellites and investigate altitudes that meet the latency and capacity requirements of 5G applications. In this regard, accurate solar irradiance determination for the nadir-orientation scenario, Multi-Junction (MJ) solar cells modeling, backup batteries type and number, and designing highly-efficient converters are addressed. Accordingly, the power budgeting of the 5G LEO satellite can be achieved based on defining the maximum generated power and determining the satellite's subsystem power requirements for 5G missions. In the sequel, the measured and simulated values of the electrical V-I characteristics of an MJ solar panel are compared to validate the model by using a Clyde Space solar panel that reaches a maximum power generation of approximately 1~W at ( IMPP=0.426, A, VMPP=2.35 V). Moreover, a synchronous boost converter circuit is designed based on commercial off-the-shelf elements.
SponsorLeverhulme Trust
Languageen
PublisherInstitute of Electrical and Electronics Engineers Inc.
Subject5G mobile communication systems
Budget control
DC-DC converters
Earth (planet)
Electric power systems
Geostationary satellites
Multi-junction solar cells
Small satellites
Solar cell arrays
Solar power generation
Space power generation
Back-up batteries
Capacity requirement
Electrical power system
Low earth orbit satellites
Power requirement
Synchronous boost converters
Terrestrial networks
V-I characteristic
Orbits
TitlePower budgeting of LEO satellites: An electrical power system design for 5G missions
TypeArticle
Pagination113258-113269
Volume Number9
dc.accessType Open Access


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