Radiation and Reliability Challenges for Electronics Used in Space, Aviation, Ground and Accelerators (RADSAGA)
Päärahoittaja
Rahoittajan antama koodi/diaarinumero: 721624
Päärahoittajan myöntämä tuki (€)
- 538 290,72
Rahoitusohjelma
Hankkeen aikataulu
Hankkeen aloituspäivämäärä: 01.03.2017
Hankkeen päättymispäivämäärä: 28.02.2021
Tiivistelmä
Reliability and radiation damage issues have a long and important history in the domain of satellites and space missions. Qualification standards were established and expertise was built up in space agencies (ESA), supporting institutes and organizations (CNES, DLR, etc.) as well as universities and specialized companies. During recent years, radiation concerns are gaining attention also in aviation, automotive, medical and other industrial sectors due to the growing ubiquity and complexity of electronic systems and their increased radiation sensitivity owing to technology scaling. This raises the demand for dedicated design and qualification guidelines, as well as associated technical expertise. Addressing open questions linked to respective qualification requirements, the proposed training network “RADiation and Reliability Challenges for Electronics used in Space, Aviation, Ground and Accelerators” (RADSAGA) will for the first time bring together industry, universities, laboratories and test-facilities in order to innovate and train young scientists and engineers in all aspects related to electronics exposed to radiation. The expertise of the space and avionics sectors will be complemented with new and unique test facilities, design and qualification methodologies of the accelerator sector, promising for other application areas. Driven by the industrial needs, the students will be trained by established specialists in all required skills, and acquire expertise through innovative scientific projects, allowing to: (i) push the scientific frontier in design, testing and qualification of complex electronic systems for mixed field radiation environments (ii) establish related courses to train future engineers/physicists; and (iii) issue design and test guidelines to support industry in the field, protecting European
competitiveness when radiation effects become as important as thermal or mechanical constraints for the aviation,
automotive and other industrial sectors.
competitiveness when radiation effects become as important as thermal or mechanical constraints for the aviation,
automotive and other industrial sectors.
Vastuullinen johtaja
Päävastuullinen yksikkö
Liittyvät julkaisut
1/2
- Analysis of the photoneutron field near the THz dump of the CLEAR accelerator at CERN with SEU measurements and simulations (2022) Lerner, Giuseppe; et al.; A1; OA
- Measurements of Low-Energy Protons using a Silicon Detector for Application to SEE Testing (2022) Cazzaniga, Carlo; et al.; A1
- Neutron-induced effects on a self-refresh DRAM (2022) Matana, Luza Lucas; et al.; A1
- Proton Direct Ionization in Sub-Micron Technologies : Numerical Method for RPP Parameter Extraction (2022) Lüdeke, Sascha; et al.; A1; OA
- 0.1-10 MeV Neutron Soft Error Rate in Accelerator and Atmospheric Environments (2021) Cecchetto, Matteo; et al.; A1; OA
- Assessment of Proton Direct Ionization for the Radiation Hardness Assurance of Deep Submicron SRAMs Used in Space Applications (2021) Coronetti, Andrea; et al.; A1; OA
- Electron-Induced Upsets and Stuck Bits in SDRAMs in the Jovian Environment (2021) Söderström, Daniel; et al.; A1; OA
- Emulating the Effects of Radiation-Induced Soft-Errors for the Reliability Assessment of Neural Networks (2021) Matanaluza, Lucas; et al.; A1
- Impact of Terrestrial Neutrons on the Reliability of SiC VD-MOSFET Technologies (2021) Martinella, Corinna; et al.; A1; OA
- Radiation hardness assurance through system-level testing : risk acceptance, facility requirements, test methodology and data exploitation (2021) Coronetti, Andrea; et al.; A1; OA
Liittyvät tutkimusaineistot
- Optical Fiber Based Dosimeter Data From RADEF Pulsed Electron Beams - Oscilloscope Traces (2021) Söderström, Daniel Paul; et al.
- Semi-empirical parameters for electronic stopping force model. Relative differences between experimental data and various stopping models (this model, SRIM2013, DPASS) (2021) Lüdeke, Sascha; et al.
