Examinando por Autor "Berrocal, A."

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Electromagnetic characterization of planetary protection covers against biological and environmental contamination for EMC tests
(Institute of Electrical and Electronics Engineers, 2022-05-25) Jiménez Lorenzo, María; Plaza Gallardo, B.; López Sanz, Daniel; Muñoz Rebate, I.; Berrocal, A.; Añón Cancela, M.; Poyatos Martínez, D.; Ministerio de Ciencia e Innovación (MICINN)
Qualification tests for space equipment and systems related to ECSS-E-ST-10-03C standard include, among others, electromagnetic compatibility (EMC) tests, that must be performed under planetary mission protection and cleanliness requirements, as well as integration and validation. Thus, all of them must be conducted under clean conditions. In consequence, it is necessary to use a protection cover that does not affect EMC tests, allowing the cleaning requirements to be met. This article focuses on the evaluation of the influence of these protection covers on the EMC tests and paves the way to investigate new geometries and materials that improve the final performance of covers, including selection of the material, development and manufacture of the cover and its electromagnetic characterization.
Acceso Abierto
SuperCam Calibration Targets: Design and Development
(Springer Link, 2020-11-26) Manrique, J. A.; López Reyes, G.; Cousin, A.; Rull, F.; Maurice, S.; Wiens, R. C.; Madariaga, M. B.; Gasnault, O.; Aramendia, J.; Arana, G.; Beck, P.; Bernard, S.; Bernardi, P.; Bernt, M. H.; Berrocal, A.; Beyssac, O.; Caïs, P.; Castro, K.; Clegg, S. M.; Cloutis, E.; Dromart, G.; Drouet, C.; Dubois, B.; Escribano, D.; Fabre, C.; Fernández, A.; Forni, O.; García Baonza, V.; Gontijo, I.; Johnson, J. R.; Laserna, J.; Lasue, J.; Madsen, S.; Mateo Martí, Eva; Medina, J.; Meslin, P.; Montagnac, G.; Moros, J.; Ollila, A. M.; Ortega, C.; Prieto Ballesteros, O.; Reess, J. M.; Robinson, S.; Rodríguez, Joseph; Saiz, J.; Sanz Arranz, J. A.; Sard, I.; Sautter, V.; Sobron, P.; Toplis, M.; Veneranda, M.; Agencia Estatal de Investigación (AEI)
SuperCam is a highly integrated remote-sensing instrumental suite for NASA’s Mars 2020 mission. It consists of a co-aligned combination of Laser-Induced Breakdown Spectroscopy (LIBS), Time-Resolved Raman and Luminescence (TRR/L), Visible and Infrared Spectroscopy (VISIR), together with sound recording (MIC) and high-magnification imaging techniques (RMI). They provide information on the mineralogy, geochemistry and mineral context around the Perseverance Rover. The calibration of this complex suite is a major challenge. Not only does each technique require its own standards or references, their combination also introduces new requirements to obtain optimal scientific output. Elemental composition, molecular vibrational features, fluorescence, morphology and texture provide a full picture of the sample with spectral information that needs to be co-aligned, correlated, and individually calibrated. The resulting hardware includes different kinds of targets, each one covering different needs of the instrument. Standards for imaging calibration, geological samples for mineral identification and chemometric calculations or spectral references to calibrate and evaluate the health of the instrument, are all included in the SuperCam Calibration Target (SCCT). The system also includes a specifically designed assembly in which the samples are mounted. This hardware allows the targets to survive the harsh environmental conditions of the launch, cruise, landing and operation on Mars during the whole mission. Here we summarize the design, development, integration, verification and functional testing of the SCCT. This work includes some key results obtained to verify the scientific outcome of the SuperCam system.