Abstract
The design of a radiation-hardened electronic system is in many ways no different from the design of electronic systems which must perform correctly while exposed to the more standard environments, such as temperature, vibration, and humidity. The early recognition of shock, vibration, temperature, humidity, and acceleration as environments which would influence electrical performance of the electronic systems has resulted in a thorough understanding of how to design against these environments. The reader familiar with electronic design in the more standard environments should endeavor to apply good design techniques from these environments to that of nuclear radiation, when the techniques seem applicable. This is seldom possible, since the radiation environment is in most ways quite unique, though there are instances where the approach can be used. For example, the design of electronics for operation in high temperatures (100 to 600°C) will also result in an electronic system which can withstand large integrated particle doses without degradation. The application of failure probability analysis, which is quite common for the more standard environments, has been generally neglected in work associated with the nuclear radiation environment. The importance of the failure probability analysis cannot be stressed enough. The single or few test sample determinations of component radiation sensitivity may be adequate early in the design cycle of a particular electronic system. However, toward the end of the design cycle, large test sample determination is a must in order to establish high confidence in the component selection for production units of the electronic system.
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References
D.C. Jones (ed.), TREE (Transient Radiation Effects on Electronics) Handbook, Battelle Memorial Institute (February 1964); obtain from DDC, Doc. #AD432213. The TREE Handbook is an excellent source of design information for hardening electronic systems against transient radiation. It was prepared from contributions by outstanding scientists and engineers in the radiation effects field, and contains detailed design information for all types of electronic parts and circuits.
Dr. G. Keister and Boeing Company personnel, Data Book for Circuit Analysis and Design-TREE, Vols. I and II (1964); obtainfrom Air Force Weapons Laboratory, Report #WLTDR-64–60. A valuable source of numerical data for the task of designing radiation-hardened electronic systems. Values of empirical constants for use in the design equations given in this book may be found in Keister’s databook, as well as the method by which the empirical constants were measured. The data book Is also a valuable complement to D.C. Jones [1].
R. K. Thatcher, D, J. Ham man, W. E. Chapin, C. L. Hanks, and E. N. Wyler, “The Effect of Nuclear Radiation on Electronic Components,” Radiation Effects Information Center Report No. 36, Battelle Memorial Institute (Columbus, Ohio), October 1964. Should be obtained on a mailing list basis by anyone doing radiation-hardening electronic design. It presents numerical degradation data for all types of electronic parts. It is continually updated as new data become available to REIC from industry, and is supplemented by a yearly report entitled “Radiation Effects State-of-the-Art, ” An example of this yearly report is REIC Report No. 34, June 1964.
F. W. Poblenz, “Analysis of Transistor Failure in a Nuclear Environment,” IEEE, NS-10, No. 1, 74–79 (January 1963).
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P.A. Trimmer, “Transient Radiation Effects in Sample Triode Amplifiers,” paper presented at IEEE Radiation Effects Meeting, April 1963.
Bibliography
H. L. Olesen, “Nuclear Radiation Effects Design Guidefor Electrical and Electronic Engineers,” General Electric Technical Information Series No. 64SD243 (April 1964).
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© 1966 Henning Lind Olesen
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Olesen, H.L. (1966). Electronic System Design Techniques. In: Radiation Effects on Electronic Systems. Springer, Boston, MA. https://doi.org/10.1007/978-1-4899-5705-4_6
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DOI: https://doi.org/10.1007/978-1-4899-5705-4_6
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