@InProceedings{AlvesScGoDuMaPaCo:2012:NAElPo,
               author = "Alves, Dimas Irion and Schuch, Nelson Jorge and Gomes, Natanael 
                         Rodrigues and Dur{\~a}o, Ot{\'a}vio Santos Cupertino and 
                         Machado, Renato and Paulo, Cl{\'a}udio Machado and Costa, 
                         Leonardo Zavareze da",
          affiliation = "{Instituto Nacional de Pesquisas Espaciais (INPE)} and {Instituto 
                         Nacional de Pesquisas Espaciais (INPE)} and {Federal University of 
                         Santa Maria} and {Instituto Nacional de Pesquisas Espaciais 
                         (INPE)} and {Electronic and Computing Department and Santa Maria 
                         Space Science Laboratory ((DELC-LACESM)/CT/UFSM)}",
                title = "NANOSATC-BR1 Electrical Power Subsystem Development of a Power 
                         Budget",
            booktitle = "Proceedings...",
                 year = "2012",
         organization = "International Astronautical Congress, 63. (IAC).",
             keywords = "NANOSATC-BR1, CubeSat, electrical power subsystem.",
             abstract = "The NANOSATC-BR1 is the first satellite of the Brazilian 
                         NANOSATC-BR Program. The NANOSATC-BR1 is a CubeSat with a cubic 
                         shape with 10 cm of edges and a mass of approximately 1 kg. The 
                         satellite is scheduled for launching in the second half of 2012 in 
                         a polar circular orbit. The primary source of electrical power of 
                         the satellite is a solar generator compound by solar cells 
                         covering the six satellite faces. Due to the very low power 
                         capability of the solar generator, an accurate study of the 
                         generated and consumed energy is necessary to assure balanced and 
                         safe satellite operation. To obtain accurate prevision of the 
                         illuminated and eclipse periods, simulations were performed. In 
                         order to obtain accurate analysis of generated and consumed power, 
                         a model of the satellite was developed, and simulations were 
                         performed using electronic simulation software. This work presents 
                         the NANOSATC-BR1 electrical power subsystem, and results of the 
                         electrical power model simulation, considering begin-of-life (BOL) 
                         conditions of the satellite for different load conditions and 
                         operation periods.",
      conference-year = "2012",
                label = "lattes: 2169963993021819 1 AlvesScGoDuMaPaCo:2012:NAElPo",
             language = "en",
           targetfile = "alves_nanosat.pdf",
        urlaccessdate = "30 abr. 2024"
}