A model-based characterization technique for lithium-ion batteries adopted in small satellites is proposed. The architecture of a hardware/software platform designed for the experimental analysis is described. Data obtained with suitable testing campaigns are exploited for the identification of the parameters of the battery model through the minimization of a cost function. In particular, the battery model represents either charging and discharging phases, with specific attention to the scenarios typical of electrical power systems in small satellites. Experimental and numerical results show the effectiveness of the proposed solution in terms of accuracy of the identified model.
A characterization system for LEO satellites batteries
Baccari S.;Vasca F.;
2019
Abstract
A model-based characterization technique for lithium-ion batteries adopted in small satellites is proposed. The architecture of a hardware/software platform designed for the experimental analysis is described. Data obtained with suitable testing campaigns are exploited for the identification of the parameters of the battery model through the minimization of a cost function. In particular, the battery model represents either charging and discharging phases, with specific attention to the scenarios typical of electrical power systems in small satellites. Experimental and numerical results show the effectiveness of the proposed solution in terms of accuracy of the identified model.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
