DocumentCode
1673775
Title
Reliability evaluation of custom and standard surface mount plastic encapsulated microcircuits for military avionics applications
Author
Bartlett, Fred
Author_Institution
Avionics Syst. Div., TRW Inc., San Diego, CA, USA
Volume
1
fYear
1997
Firstpage
120
Abstract
This paper focuses on thermal cycling and moisture susceptibility of plastic encapsulated microcircuits for use in military avionics digital processing modules. Today´s avionics designs often use low profile Standard Electronics Module-Size E (SEM-E) modules, which preclude the use of through-hole microcircuit technology. This fact pushes the design selection of microcircuits to surface-mount, thin, small outline packages (TSOPs), small outline J-leaded (SOJ) packages and Plastic Ball Grid Array (PBGA) packages. Two series of accelerated tests were conducted for the purpose of evaluating the moisture acid temperature cycling susceptibility of standard as well as custom, plastic encapsulated microcircuits. The first group consisted of 1248 commercially available plastic integrated circuits (ICs), representing 19 different part types from 9 different manufacturers. The second group included 17 custom Application Specific Integrated Circuits (ASICs), and a mix of standard microcircuits that did not get into the first test group. All of the above microcircuits were reflow solder-attached to test circuit boards on an automotive electronics assembly line. The test boards were then subjected to a series of accelerated tests for the purpose of evaluating thermal cycling and moisture susceptibility of the plastic SMT ICs. The test results are summarized and the failure analysis results are presented. A summary failure rate calculations are presented which are based on data from this testing as well as from component manufacturing reliability testing
Keywords
failure analysis; military avionics; printed circuit manufacture; printed circuit testing; surface mount technology; J-leaded packages; PBGA; Plastic Ball Grid Array packages; SEM-E modules; Standard Electronics Module; accelerated tests; avionics design; design selection; failure analysis; failure rate calculations; lifetimes; manufacturing reliability testing; military avionics applications; military avionics digital processing modules; moisture acid temperature cycling susceptibility; moisture susceptibility; plastic encapsulated microcircuits; surface mount plastic encapsulated microcircuits; thermal cycling; through-hole microcircuit technology; Aerospace electronics; Circuit testing; Electronic equipment testing; Electronics packaging; Integrated circuit manufacture; Life estimation; Moisture; Plastic integrated circuit packaging; Plastic packaging; Temperature;
fLanguage
English
Publisher
ieee
Conference_Titel
Aerospace and Electronics Conference, 1997. NAECON 1997., Proceedings of the IEEE 1997 National
Conference_Location
Dayton, OH
Print_ISBN
0-7803-3725-5
Type
conf
DOI
10.1109/NAECON.1997.617770
Filename
617770
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