3 September 2010 Reliability of fuzes based on diode laser assemblies
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We present an analysis of a reliability assessment tailored specifically to fuzes based on laser diode assemblies. Fuzes are required to deliver high energy in a single short pulse (micro- to milliseconds) after prolonged storage (tens of years) in thermally non-stabilized environments. The temperature variation could easily exceed 100 degrees, and the transition from one extreme to the other could be slow or rapid, depending on a particular application. The operating requirements for diode laser fuzes are dramatically different from the majority of other diode laser applications and thus a reliability assurance program for laser fuzes should reflect these differences in usage. In this paper we demonstrate that it is possible to build accelerated aging conditions based on thermal cycling. As parameters in the accelerated thermal aging, we used the total temperature difference between the lowest and the highest points in the cycle, and the average rate of temperature change between the extreme points. This accelerated aging technique based on thermal cycling can predict the performance deterioration over time after storage in thermally non-stabilized environments. The basis of this approach can be extended to the analysis of reliability in environments with high vibration and radiation levels.
© (2010) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
M. Maiorov, M. Maiorov, D. Damm, D. Damm, I. Trofimov, I. Trofimov, V. Zeidel, V. Zeidel, R. Sellers, R. Sellers, "Reliability of fuzes based on diode laser assemblies", Proc. SPIE 7795, Optical Technologies for Arming, Safing, Fuzing, and Firing VI, 77950A (3 September 2010); doi: 10.1117/12.860987; https://doi.org/10.1117/12.860987


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