The DREAMS package is an integrated multi-sensor scientic payload mainly devoted to characterizing the landing site environment in dusty conditions (dust properties/abundance, potential electric activity, meteorological state such us environmental parameters. DREAMS architecture is conceived with a modular approach to provides interfaces and resources to several sensors. The current baseline is composed by the following units: primary battery holding an electrode mast and a Common Electronic Unit (CEU) holding an Environmental mast to which anemometer, thermometer, optical sensor, pressure and humidity sensor are connected. The CEU show a multi-stack conguration in which the following functionalities are implemented: Power distribution, data acquisition (both analog and digital sensors, DataHandling, data compression and data storage, thermal control and I/Fs to EDM, CanBUS for data exchange, and Power interfaces both redundant. In addition a timer functionality is implemented to manage the switch on-Switch o of the CEU and the Sensors according to signal received from EDM via CanBus. The extreme temperature range to which DREAMS is exposed, forces to a demanding thermal design and a robust thermal control to guarantee in particular for the battery operational temperature range in which its eciency is compliant to provide 300-400 [Wh] for Martian operations and thermal conditioning. The DREAMS modular approach meets EDM Surface PayLoad accommodation constraints (total mass 3 [kg] including maturity margins, data volume 50 [Mbit], data transmission two times per sol) as well as options oering signicant increase of science return. The DREAMS package gathers a wide consortium of institutions led by Italy, re ecting the current involvement of European countries in the ExoMars program.

DREAMS - AN INTEGRATED MULTISENSOR SCIENTIFIC PAYLOAD FOR MARS EXPLORATION

DEBEI, STEFANO;ZACCARIOTTO, MIRCO;BETTANINI FECIA DI COSSATO, CARLO;COLOMBATTI, GIACOMO;ABOUDAN, ALESSIO;FRISO, ENRICO;SEGATO, ELISA;
2012

Abstract

The DREAMS package is an integrated multi-sensor scientic payload mainly devoted to characterizing the landing site environment in dusty conditions (dust properties/abundance, potential electric activity, meteorological state such us environmental parameters. DREAMS architecture is conceived with a modular approach to provides interfaces and resources to several sensors. The current baseline is composed by the following units: primary battery holding an electrode mast and a Common Electronic Unit (CEU) holding an Environmental mast to which anemometer, thermometer, optical sensor, pressure and humidity sensor are connected. The CEU show a multi-stack conguration in which the following functionalities are implemented: Power distribution, data acquisition (both analog and digital sensors, DataHandling, data compression and data storage, thermal control and I/Fs to EDM, CanBUS for data exchange, and Power interfaces both redundant. In addition a timer functionality is implemented to manage the switch on-Switch o of the CEU and the Sensors according to signal received from EDM via CanBus. The extreme temperature range to which DREAMS is exposed, forces to a demanding thermal design and a robust thermal control to guarantee in particular for the battery operational temperature range in which its eciency is compliant to provide 300-400 [Wh] for Martian operations and thermal conditioning. The DREAMS modular approach meets EDM Surface PayLoad accommodation constraints (total mass 3 [kg] including maturity margins, data volume 50 [Mbit], data transmission two times per sol) as well as options oering signicant increase of science return. The DREAMS package gathers a wide consortium of institutions led by Italy, re ecting the current involvement of European countries in the ExoMars program.
2012
IAC-63rd International Astronautical Congress
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/2533209
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