Full qualification for commercial photonic parts as defined by the Military specification system in the past, is not feasible. Due to changes in the photonic components industry and the Military specification system that NASA had relied upon so heavily in the past, an approach to technology validation of commercial off the shelf parts had to be devised. This approach involves knowledge of system requirements, environmental requirements and failure modes of the particular components under consideration. Synthesizing the criteria together with the major known failure modes to formulate a test plan is an effective way of establishing knowledge based "qualification". Although this does not provide the type of reliability assurance that the Military specification system did in the past, it is an approach that allows for increased risk mitigation. The information presented will introduce the audience to the technology validation approach that is currently applied at NASA for the usage of commercial-off-the-shelf (COTS) fiber optic components for space flight environments. The focus will be on how to establish technology validation criteria for commercial fiber products such that continued reliable performance is assured under the harsh environmental conditions of typical missions. The goal of this presentation is to provide the audience with an approach to formulating a COTS qualification test plan for these devices. Examples from past NASA missions will be discussed.
Validation of Commercial Fiber Optic Components for Aerospace Environments
2005
13 pages
Report
Keine Angabe
Englisch
Unmanned Spacecraft , Manned Spacecraft , Optics & Lasers , Aerospace environments , Fiber optics , Systems engineering , Technology utilization , Commercial off-the-shelf products , Failure modes , Vibration tests , Reliability , Low earth orbits , Laser altimeters , Collimators , Semiconductor lasers
SAE Technical Papers | 2021
SAE Technical Papers | 2003