DocumentCode
2421133
Title
CBGA and C4 fatigue dependence on thermal cycle frequency
Author
Di Giacomo, Giulio ; Ahmed, U.
Author_Institution
IBM Microelectron., East Fishkill, NY, USA
fYear
2000
fDate
2000
Firstpage
261
Lastpage
264
Abstract
The fatigue life of solder bumps in flip chips increases as a function of frequency to the third power besides its dependence on shear strain and cycle peak temperature. On the other hand the tensile strain is practically negligible since both chip-carrier and chip have high elastic moduli and reasonably close coefficients of thermal expansion (CTE), inducing small and comparable bending in the chip and chip-carrier. In the case of CBGA, the card bending is more severe due to its much lower elastic modulus and much higher CTE relative to the ceramic chip-carrier. Such a structure induces tensile strains in CBGA joints (1) at the central portion of the chip-carrier during thermal cycle upswing, and (2) at the outer region during the downswing. The strain increases (and fatigue life decreases) with temperature ramp-rate and therefore with frequency, which is the opposite effect of stress relaxation as a function of frequency associated with shear strain. Therefore, the CBGA fatigue life can decrease or increase with frequency depending on whether the tensile strain becomes dominant or not. Results show that at frequencies beyond 2 cycles per hour, the tensile strain effect on fatigue starts to dominate which results in lower fatigue life
Keywords
ball grid arrays; bending; ceramic packaging; elastic moduli; soldering; stress relaxation; thermal expansion; thermal stress cracking; C4 fatigue dependence; CBGA; bending; card bending; ceramic chip-carrier; coefficients of thermal expansion; cycle peak temperature; elastic moduli; fatigue life; flip chips; shear strain; solder bump fatigue life; temperature ramp-rate; tensile strain; thermal cycle frequency; thermal cycle upswing; Capacitive sensors; Ceramics; Fatigue; Flip chip; Frequency; Temperature dependence; Tensile strain; Tensile stress; Thermal expansion; Thermal stresses;
fLanguage
English
Publisher
ieee
Conference_Titel
Advanced Packaging Materials: Processes, Properties andInterfaces, 2000. Proceedings. International Symposium on
Conference_Location
Braselton, GA
Print_ISBN
0-930815-59-9
Type
conf
DOI
10.1109/ISAPM.2000.869282
Filename
869282
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