Title :
Reliability of high-end flip-chip package with large 45nm ultra low-k die
Author :
Bansal, Anurag ; Kang, Teck-Gyu ; Li, Yuan
Author_Institution :
Altera Corp., San Jose, CA
Abstract :
The ultra low-K (ULK) dielectric material employed in 45 nm process technology is more porous and brittle than low-K dielectric used in prior generations. This paper looks into the effects of packaging materials on the reliability of a 42.5 times 42.5 mm flip-chip package assembled by a 20 times 20 mm ULK daisy chain die with 180 mum bump pitch and organic build-up thin-core substrate. Underfill materials with low Tg and high modulus, high Tg and high modulus, and high Tg and low modulus have been evaluated. In addition the effects of die thickness were studied. Finite element modeling, room temperature coplanarity, component-level and board-level temperature cycling tests have been used to study the different underfill materials and die thicknesses. Results show that room temperature warpage, propensity for ULK delamination, and solder joint reliability were significantly affected by the underfill properties.
Keywords :
dielectric materials; electronics packaging; finite element analysis; flip-chip devices; reliability; soldering; Finite element modeling; ULK; board-level temperature cycling tests; component-level temperature cycling tests; die thickness; high-end flip-chip package; packaging materials; room temperature coplanarity; solder joint reliability; ultralow-K dielectric material; Assembly; Delamination; Dielectric materials; Dielectric substrates; Finite element methods; Materials reliability; Materials testing; Organic materials; Packaging; Temperature;
Conference_Titel :
Electronic Components and Technology Conference, 2008. ECTC 2008. 58th
Conference_Location :
Lake Buena Vista, FL
Print_ISBN :
978-1-4244-2230-2
Electronic_ISBN :
0569-5503
DOI :
10.1109/ECTC.2008.4550152
