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Formation flying metrology for the ESA-PROBA3 mission: the Shadow Position Sensors (SPS) silicon photomultipliers (SiPMs) readout electronics

Authors :
Federico Landini
Steve Buckley
Jean-Sébastien Servaye
Etienne Renotte
Vladimiro Noce
Giuseppe Massone
Mauro Focardi
Gerardo Capobianco
Gianalfredo Nicolini
Cédric Thizy
Alessandro Bemporad
Kevin O'Neill
Cristian Baccani
Davide Loreggia
Maurizio Pancrazzi
Silvano Fineschi
Marco Romoli
Publication Year :
2015
Publisher :
SPIE, 2015.

Abstract

The European Space Agency (ESA) is planning to launch in 2018 the PROBA3 Mission, designed to demonstrate the inorbit formation flying (FF) attitude capability of its two satellites and to observe the inner part of the visible solar corona as the main scientific objective. The solar corona will be observed thanks to the presence on the first satellite, facing the Sun, of an external occulter producing an artificial eclipse of the Sun disk. The second satellite will carry on the coronagraph telescope and the digital camera system in order to perform imaging of the inner part of the corona in visible polarized light, from 1.08 R⦿ up to about 3 R⦿. One of the main metrological subsystems used to control and to maintain the relative (i.e. between the two satellites) and absolute (i.e. with respect to the Sun) FF attitude is the Shadow Position Sensor (SPS) assembly. It is composed of eight micro arrays of silicon photomultipliers (SiPMs) able to measure with the required sensitivity and dynamic range the penumbral light intensity on the Coronagraph entrance pupil. In the following of the present paper we describe the overall SPS subsystem and its readout electronics with respect to the capability to satisfy the mission requirements, from the light conversion process on board the silicon-based SPS devices up to the digital signal readout and sampling.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....1978dfd1d2f8537ae6f94254c9209475