Evaluation, Selection and Simulation of Maximum Power Point Tracking Algorithm for LEO Satellite Electrical Power System

Energy is a premium resource in the world of on-board satellite communications. Most of the energy in space is generated from solar panels. But unfortunately, solar energy isn't always available during different phases of a satellite's orbit/trajectory. As a result, the on-board batteries...

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Vydáno v:International Conference on Energy Conservation and Efficiency (Online) s. 1 - 6
Hlavní autor: Zahid, Humayun
Médium: Konferenční příspěvek
Jazyk:angličtina
Vydáno: IEEE 06.03.2024
Témata:
Fractional Open Circuit Voltage (FOCV)
Fractional Short Circuit Curren (FSCC)
Heuristic algorithms
Incremental Conductance (IC)
Low Earth Orbit (LEO)
Low earth orbit satellites
Mathematical models
Maximum power point trackers
Perturb and Observe (P&O)
Satellites
Simulation
Temperature sensors
ISSN:2767-9829
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Shrnutí:Energy is a premium resource in the world of on-board satellite communications. Most of the energy in space is generated from solar panels. But unfortunately, solar energy isn't always available during different phases of a satellite's orbit/trajectory. As a result, the on-board batteries kick-in during solar eclipse and provide the required power to satellite subsystems. Thus it is paramount that the batteries be replenished quickly and efficiently during the sun-lit phase. The satellite Electrical Power Sub-system (EPS) is responsible for providing, managing and replenishing this energy. Methods like Direct Energy Transfer (DET) and Maximum Power Point Tracking (MPPT) are used to optimally interface/manage the EPS load. This work gauges the merits and demerits of satellite EPS operation using DET and MPPT for the proposed LEO orbital configurations and the one best suited for the considered mission profile is selected. A mission specific MATLAB/Simulink-based model is also developed to test and evaluate the performance of various MPPT techniques (e.g., P&O, IC, FOCV, FSCC, etc.) for our orbital/load requirements. Furthermore, performance comparison of these techniques is also evaluated based on a-priori mission requirements such as prior tuning, dynamic and steady-state tracking, algorithm/hardware complexity and sensor requirements. Based on these performance parameters and the simulation results (i.e. steady-state voltage fluctuations), P&O MPPT technique is selected for our rapidly varying satellite orbital conditions.
ISSN:2767-9829
DOI:10.1109/ICECE61222.2024.10505264