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@Article{MattosAndHolPinMar:2018:ReBoCo,
               author = "Mattos, Everson and Andrade, Ant{\^o}nio M. S. S. and Hollweg, 
                         Guilherme V. and Pinheiro, J. R. and Martins, M{\'a}rio L. S.",
          affiliation = "{Instituto Nacional de Pesquisas Espaciais (INPE)} and 
                         {Universidade Federal de Santa Maria (UFSM)} and {Universidade 
                         Federal de Santa Maria (UFSM)} and {Universidade Federal de Santa 
                         Maria (UFSM)} and {Universidade Federal de Santa Maria (UFSM)}",
                title = "A review of boost converter analysis and design in aerospace 
                         applications",
              journal = "IEEE Latin America Transactions",
                 year = "2018",
               volume = "16",
               number = "2",
                pages = "305--313",
                month = "Feb.",
             keywords = "Boost, DC-DC Converter, Static Analysis, Operation Modes.",
             abstract = "Often, for simplicity, it is adopted for boost converter inductor 
                         and capacitor design the inductor current variation (Delta I-L), 
                         defining it as an output current percentage. However, this kind of 
                         methodology does not guarantee the inductor and capacitor minimum 
                         values that assure the converter working on continuous mode 
                         operation, discontinuous mode operation, or when it is desired to 
                         operate the converter at the boundary between these modes. The aim 
                         of this paper is to present a theoretical study of the no-losses 
                         boost converter. The principle of operation and static analysis 
                         are developed in detail for operation on the following modes: 
                         continuous mode operation, discontinuous current mode operation 
                         and at the boundary between these modes. During this analysis, all 
                         four variables (input and output currents and voltages) are 
                         considered as design choices for independent variables that 
                         determine the boundary between continuous and discontinuous modes. 
                         In addition, a design methodology is presented to illustrate the 
                         theoretical procedures, which guarantee the inductor and capacitor 
                         minimum values according to the desired operation mode. Finally, 
                         the simulation results proof the theoretical analysis.",
                 issn = "1548-0992",
             language = "en",
           targetfile = "mattos_review.pdf",
        urlaccessdate = "05 dez. 2020"
}


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