Total Ionizing Dose Effects on Commercial ARM Microcontroller for Low Earth Orbit Satellite Subsystems
Akah, H., Elfiky, D., Shahin, K., Elemam, E., Anwar, A. (2017). Total Ionizing Dose Effects on Commercial ARM Microcontroller for Low Earth Orbit Satellite Subsystems. EKB Journal Management System, 17(AEROSPACE SCIENCES & AVIATION TECHNOLOGY, ASAT - 17 – April 11 - 13, 2017), 1-8. doi: 10.21608/asat.2017.22762
Haitham Akah; Dalia Elfiky; Khaled Shahin; Eman Elemam; Ahmed Anwar. "Total Ionizing Dose Effects on Commercial ARM Microcontroller for Low Earth Orbit Satellite Subsystems". EKB Journal Management System, 17, AEROSPACE SCIENCES & AVIATION TECHNOLOGY, ASAT - 17 – April 11 - 13, 2017, 2017, 1-8. doi: 10.21608/asat.2017.22762
Akah, H., Elfiky, D., Shahin, K., Elemam, E., Anwar, A. (2017). 'Total Ionizing Dose Effects on Commercial ARM Microcontroller for Low Earth Orbit Satellite Subsystems', EKB Journal Management System, 17(AEROSPACE SCIENCES & AVIATION TECHNOLOGY, ASAT - 17 – April 11 - 13, 2017), pp. 1-8. doi: 10.21608/asat.2017.22762
Akah, H., Elfiky, D., Shahin, K., Elemam, E., Anwar, A. Total Ionizing Dose Effects on Commercial ARM Microcontroller for Low Earth Orbit Satellite Subsystems. EKB Journal Management System, 2017; 17(AEROSPACE SCIENCES & AVIATION TECHNOLOGY, ASAT - 17 – April 11 - 13, 2017): 1-8. doi: 10.21608/asat.2017.22762

Total Ionizing Dose Effects on Commercial ARM Microcontroller for Low Earth Orbit Satellite Subsystems

International Conference on Aerospace Sciences and Aviation Technology
Article 70, Volume 17, AEROSPACE SCIENCES & AVIATION TECHNOLOGY, ASAT - 17 – April 11 - 13, 2017, April 2017, Page 1-8  XML PDF (485.66 K)
Document Type: Original Article
DOI: 10.21608/asat.2017.22762
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Authors
Haitham Akah1; Dalia Elfiky1; Khaled Shahin2; Eman Elemam2; Ahmed Anwar3
1Researcher, National Authority of remote sensing and space science.
2Engineer, National Authority of remote sensing and space science.
3Egyptian Armed Forces.
Abstract
Abstract: Despite the harshness of the space radiation on satellite electronic components, some Commercial Of The Shelf (COTS) can sustain such harsh environment. Thus, the low-cost advantage of the COTS can be utilized given that these electronic components meet the technical design requirements of the targeted satellite subsystem. Because of the complexity of microcontrollers and their various integrated functionality, they present a hardness assurance challenge. A careful technique was followed in analyzing the space radiation effects. Then rigorous tests should be conducted to test the performance of the candidate microcontrollers under these effects. This paper presents the predicted dose depth curve and the total ionizing does test results for a commercial ARM microcontroller for Low Earth Orbit (LEO) satellites. Such test results help estimate the effect of space environment on the microcontroller and decide if such microcontroller is an accepted candidate for LEO missions or not.
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