In space vehicles, the typical configurations for the Solar Array Power Regulators in charge of managing power transfer from the solar array to the power bus are quite different from the corresponding devices in use for terrestrial applications. A thorough analysis is reported for the most popular approaches, namely Sequential Switching Shunt Regulation and parallel-input Pulse Width Modulated converters with Maximum Power Point Tracking. Their performance is compared with reference to a typical mission in low Earth orbit, highlighting the respective strengths and weaknesses. A novel solar array managing technique, the Sequential Maximum Power Tracking, is also introduced in the trade-off and was demonstrated able to boost energy harvesting, especially in the presence of mismatching in the solar array. It also can achieve top levels of reliability using a rather simple control hardware. Its operation was verified both by a Matlab–Simulink model and by an experimental breadboard.
Power Bus Management Techniques for Space Missions in Low Earth Orbit / Schirone, Luigi; Ferrara, Matteo; Granello, Pierpaolo; Paris, Claudio; Pellitteri, Filippo. - In: ENERGIES. - ISSN 1996-1073. - 14:(2021), pp. 1-19. [10.3390/en14237932]
Power Bus Management Techniques for Space Missions in Low Earth Orbit
Luigi Schirone
Primo
Conceptualization
;Matteo FerraraSoftware
;Pierpaolo GranelloInvestigation
;Claudio ParisInvestigation
;
2021
Abstract
In space vehicles, the typical configurations for the Solar Array Power Regulators in charge of managing power transfer from the solar array to the power bus are quite different from the corresponding devices in use for terrestrial applications. A thorough analysis is reported for the most popular approaches, namely Sequential Switching Shunt Regulation and parallel-input Pulse Width Modulated converters with Maximum Power Point Tracking. Their performance is compared with reference to a typical mission in low Earth orbit, highlighting the respective strengths and weaknesses. A novel solar array managing technique, the Sequential Maximum Power Tracking, is also introduced in the trade-off and was demonstrated able to boost energy harvesting, especially in the presence of mismatching in the solar array. It also can achieve top levels of reliability using a rather simple control hardware. Its operation was verified both by a Matlab–Simulink model and by an experimental breadboard.| File | Dimensione | Formato | |
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Schirone_Power_2021.pdf
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