Conferences & Publications Innovation; Continue reading
Collaboration with Industry and R&D centres Cooperation within optoelectronics business Continue reading
Beam diagnosis intended to be used by hospitals and at nuclear facilities, with a scintillator with silicon and germanium arrays Novel 3D silicon technology applications: telescope and radiation detection High/medium ion and gamma energy reconstruction Hadrontherapy techniques... Continue reading
Reliability testing of passive parts for very extreme temperature applications Continue reading
Development of Silicon Capacitors for Space Applications Continue reading
Alter Technology has performed several R&D projects concerning characterization of EEE parts & subsystems at very extreme temperatures (-190ºC to 300ºC) Continue reading
Very extreme temperature testing Alter Technology has developed specific capabilities to support very extreme temperature testing on the full range of parts, equipments and materials Several cryogenic chambers with temperature range -185ºC to +315ºC Open-air thermal tables with... Continue reading
-New space missions impose stricter requirements on storage, vacuum conditions and operating temperature, exceeding the standard -55ºC / +125ºC range -Parts reliability has to be reanalysed to ensure mission performance -New technologies have to be evaluated with regard to their... Continue reading
Radiation sensors: NEUTOR Development of specific radiation sensors, based on EEPROM, for radiotherapy and other applications Continue reading
Main parameters: 10 bits angular sensor to replace current potentiometers for telecom applications 18 bit angular sensor for scientific and custom missions Continue reading
In collaboration with other companies, universities and R&D centers, Alter Technology is developing proprietary parts for harsh environment applications, among others: Continue reading
To study and predict radiation induced degradation of optoelectronic devices, with particular interest in image sensors based on APS (active pixel sensing) technology, as well as of InGaN, GaP and AlInGaP semiconductor materials. Continue reading