Title :
Modelling the effect of temperature on product reliability
Author_Institution :
Old R. Naval Coll., Greenwich Univ., London, UK
Abstract :
Reliability of electronic parts is a major concern for many manufacturers, since early failures in the field can cost an enormous amount to repair - in many cases far more than the original cost of the product. A great deal of effort is expended by manufacturers to determine the failure rates for a process or the fraction of parts that will fail in a period of time. It is widely recognized that the traditional approach to reliability predictions for electronic systems are not suitable for today´s products. This approach, based on statistical methods only, does not address the physics governing the failure mechanisms in electronic systems. This paper discusses virtual prototyping technologies which can predict the physics taking place and relate this to appropriate failure mechanisms. Simulation results illustrate the effect of temperature on the assembly process of an electronic package and the lifetime of a flip-chip package.
Keywords :
assembling; circuit reliability; circuit simulation; failure analysis; flip-chip devices; integrated circuit modelling; integrated optoelectronics; optimisation; thermal management (packaging); virtual prototyping; electronic equipment reliability; electronic package assembly; failure analysis; failure mechanisms; failure rates; flip-chip package lifetime; multiphysics modelling; optimisation; optoelectronic packages; product reliability temperature effects; reliability prediction; thermo-mechanical modelling; virtual prototyping; Appropriate technology; Assembly; Costs; Electronics packaging; Failure analysis; Manufacturing processes; Physics; Statistical analysis; Temperature; Virtual prototyping;
Conference_Titel :
Semiconductor Thermal Measurement and Management Symposium, 2003. Ninteenth Annual IEEE
Print_ISBN :
0-7803-7793-1
DOI :
10.1109/STHERM.2003.1194380
