LOREGGIA, DavideDavideLOREGGIACAPOBIANCO, GerardoGerardoCAPOBIANCOFINESCHI, SilvanoSilvanoFINESCHIAMADORI, FrancescoFrancescoAMADORICASCHERA, SalvatoreSalvatoreCASCHERABELLUSO, MassimilianoMassimilianoBELLUSOZANGRILLI, LucaLucaZANGRILLIPANCRAZZI, MaurizioMaurizioPANCRAZZICARACCI, ValeriaValeriaCARACCIMASSONE, GiuseppeGiuseppeMASSONE2025-03-112025-03-112023978151066803497815106680410277-786Xhttp://hdl.handle.net/20.500.12386/36659The PROBA-3 double-spacecraft formation flying mission of the European Space Agency (ESA) has been presented in recent papers with details about the mission profile, the operation objectives, and the implemented technologies. PROBA-3 will fly the externally occulted coronagraph ASPIICS (Association of Spacecraft for Polarimetric and Imaging Investigation of the Corona of the Sun), with the telescope on one satellite and the occulter on the other one, at 144m. The scientific objective is to realize an artificial total solar eclipse to observe the lower Sun corona. The high accuracy metrology control is the core of the mission and several sub-systems will be verified and validated to realize the coronagraphic formation. Between these, the Shadow Position Sensors (SPS), composed of eight photo-multipliers mounted around the ASPIICS entrance pupil monitoring the solar penumbra symmetry, will return the 3D positioning of the formation with the highest accuracy. The SPS on ground calibration was completed in 2021 and one of the main aspects of the test has been the implementation of an illumination scheme to simulate the same conditions the SPS will experience in flight. This was realized using a suite of LED sources properly assembled in a testbed used to reproduce the expected observation configurations. This testbed is supported by a dedicated software able to simulate the different illumination conditions and to drive the control of the LEDs in order to feed each SPS sensor with the proper light flux. In this paper, we review the SPS metrology system, the calibration testbed setup, and we discuss the interface control software, the simulation tool, and the data acquisition procedure adopted to calibrate the LED sources.STAMPAenConference paper10.1117/12.2689974https://www.spiedigitallibrary.org/conference-proceedings-of-spie/12777/2689974/ASPIICS-shadow-position-sensors-digital-twin-and-illumination-testbed/10.1117/12.2689974.fullFIS/05 - ASTRONOMIA E ASTROFISICAERC sectors::Physical Sciences and Engineering::PE9 Universe sciences: astro-physics/chemistry/biology; solar systems; stellar, galactic and extragalactic astronomy, planetary systems, cosmology, space science, instrumentation::PE9_1 Solar and interplanetary physics