ANNEALING PROTOCOL AND FINITE ELEMENT MODEL FOR RECOVERY OF RADIATION-DAMAGED ELECTRONICS
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Authors
Kalinka, Joseph L.
Subjects
self-healing
annealing
electronics
radiation
space
annealing
electronics
radiation
space
Advisors
Grbovic, Dragoslav
Durante Pereira Alves, Fabio
Date of Issue
2023-06
Date
Publisher
Monterey, CA; Naval Postgraduate School
Language
Abstract
Technological advancements in electronic device scaling has led to the use of smaller spacecraft that can travel at higher speeds and lower costs associated with launch weight and propulsion. Traditional counter-radiation methods for space electronics involve hardened chip designs that negate the benefits of using smaller, lighter spacecraft. A self-healing counter-radiation approach, using a micro-heater to thermally anneal commercial-off-the-shelf (COTS) chips, is an attractive alternative due to performance enhancement and reduced cost and weight. In this research, the degradation of COTS transistors via gamma radiation and their subsequent recovery in the laboratory is experimentally proven. Through an iterative process, an annealing protocol is developed that successfully recovered damaged bipolar junction transistors (BJT) exposed to 5–10 Mrad radiation doses in approximately two hours at 200°C. Additionally, finite element modeling is used to create an annealing micro-heater, adjust heater parameters to optimize performance, and explore heater integration with a ceramic chip package, lid, and transistor. The annealing protocol and model results in this research provide the foundation for future self-healing efforts using more complex electronics, such as logic units. Furthermore, this research can serve to enhance the robustness of space electronics for future space missions executed by the DOD and subordinate organizations, such as the U.S. Space Force.
Type
Thesis
Description
Series/Report No
Department
Physics (PH)
Organization
Identifiers
NPS Report Number
Sponsors
DoD Space
Funder
Format
Citation
Distribution Statement
Approved for public release. Distribution is unlimited.
Rights
This publication is a work of the U.S. Government as defined in Title 17, United States Code, Section 101. Copyright protection is not available for this work in the United States.