The work is aimed to investigate the mechanical responses of bare dies of the combination of pure tinAlNiVCu Under bump metallization (UBM) and packages of pure tinAlNiVCu UBM/substrate of standard thickness of aurum. The mechanical properties under multiple reflow and long term high temperature storage test (HTST) tests at different temperatures and the operational life were obtained. A scanning electron microscope was used to observe the growth of IMC and the failure modes in order to realize their reaction and connection. From the empirical results of bare dies, the delamination between IMC and die was observed due to the tests at 260 °C multiple reflow. However, their mechanical properties were not affected. Nevertheless, the bump shear strength of bare dies were decreased by HTST tests. In package, all the results of mechanical properties by multiple reflow test and HTST test were significantly lowered. It was shown that the adhesion between bump and die reduced obviously as tests going on. As for high temperature operational life test in the conditions of 150 °C and 320 mA (5040Acm2), the average stable service time of the package was 892 h, and the average ultimate service time of the package was 1053 h.

Issue Section:
Research Papers
Keywords:
metallisation, reliability, integrated circuit packaging, reflow soldering, testing, tin, aluminium alloys, nickel alloys, vanadium alloys, copper alloys, dies (machine tools), solders, flip-chip devices, high-temperature electronics, flip-chip, bump/UBM, BGA, lead-free solder, reliability test
Topics:
Ball-Grid-Array packaging, Flip-chip, High temperature, Lead-free solders, Reliability, Shear (Mechanics), Failure mechanisms, Solders, Shear strength, Adhesion, Scanning electron microscopes, Storage, Delamination, Temperature, Mechanical properties
1.
Jang
,
S. Y.
, and
Paik
,
K. W.
, 2000, “
Comparison of Electroplated Eutectic Sn∕Bi and Sn∕Pb Solder Bumps on Various UBM Systems
,”
Proceedings of the 50th Electronic Components and Technology Conference
,
IEEE Proceedings
, Las Vegas, pp.
64
68
.
2.
Su
,
P.
,
Korhonen
,
T.
,
Korhonen
,
M.
, and
Li
,
C. Y.
, 2000, “
Intermetallic Phase Formation and Growth Kinetics at the Interface Between Molten Solder and Ni-Containing Under Bump Metallization
,”
Proceedings of the 50th Electronic Components and Technology Conference
,
IEEE Proceedings
, Las Vegas, pp.
1712
1718
.
3.
Cho
,
S. J.
,
Kim
,
J. Y.
,
Park
,
M. G.
,
Park
,
I. S.
, and
Chun
,
H. S.
, 2000, “
Under Bump Metallurgies for a Wafer Level CSP With Eutectic Pb–Sn Solder Ball
,”
Proceedings of the 50th Electronic Components and Technology Conference
,
IEEE Proceedings
, Las Vegas, pp.
844
849
.
4.
Korhonen
,
T. M.
,
Su
,
P.
,
Hong
,
S. J.
,
Korhonen
,
M. A.
, and
Li
,
C. Y.
, 2000, “
Under Bump Metallizations for Lead-Free Solders
,”
Proceedings of the 50th Electronic Components and Technology Conference
,
IEEE Proceedings
, Las Vegas, pp.
1106
1110
.
5.
Xiao
,
G.
,
Chan
,
P.
,
Jian
,
C.
,
Teng
,
A.
, and
Yuen
,
M.
, 2000, “
The Effect of Cu Stud Structure and Eutectic Solder Electroplating on Intermetallic Growth and Reliability of Flip-Chip Solder Bump
,”
Proceedings of the 50th Electronic Components and Technology Conference
,
IEEE Proceedings
, Las Vegas, pp.
54
59
.
6.
Teo
,
P. S.
,
Huang
,
Y. W.
,
Tung
,
C. H.
,
Marks
,
M. R.
, and
Lim
,
T. B.
, 2000, “
Investigation of Under Bump Metallization Systems for Flip-Chip Assemblies
,”
Proceedings of the 50th Electronic Components and Technology Conference
,
IEEE Proceedings
, Las Vegas, pp.
33
39
.
7.
Kripesh
,
V.
,
Teo
,
P. S.
,
Chong
,
C. T.
, and
Vishwanadam
,
G.
, 2001, “
Development of a Lead Free Chip Scale Package for Wireless Applications
,”
Proceedings of the 51st Electronic Components and Technology Conference
,
IEEE Proceedings
, Orlando, pp.
665
670
.
8.
Leng
,
T. H.
,
Kirkpatrick
,
G.
,
Tay
,
A.
, and
Li
,
L.
, 2001, “
Cr∕Cu∕Ni Underbump Metallization Study
,”
Proceedings of the 51st Electronic Components and Technology Conference
,
IEEE Proceedings
, Orlando, pp.
939
944
.
9.
Lin
,
J. K.
,
Silva
,
A. D.
,
Frear
,
D.
,
Guo
,
Y.
,
Jang
,
J. W.
,
Li
,
L.
,
Mitchell
,
D.
,
Yeung
,
B.
, and
Zhang
,
C.
, 2001, “
Characterization of Lead-Free Solders and Under Bump Metallurgies for Flip-Chip Package
,”
Proceedings of the 51st Electronic Components and Technology Conference
,
IEEE Proceedings
, Orlando, pp.
455
462
.
10.
Jeon
,
Y. D.
, and
Paik
,
K. W.
, 2001, “
Studies on Ni-Sn Intermetallic Compound and P-rich Ni Layer at the Electroless Nickel UBM-Solder Interface and Their Effects on Flip Chip Solder Joint Reliability
,”
Proceedings of the 51st Electronic Components and Technology Conference
,
IEEE Proceedings
, Orlando, pp.
1326
1332
.
11.
Jang
,
S. Y.
,
Wolf
,
J.
,
Ehrmann
,
O.
,
Gloor
,
H.
,
Reichl
,
H.
, and
Paik
,
K. W.
, 2001, “
Investigation of UBM Systems for Electroplated Sn∕37Pb and Sn∕3.5Ag Solder
,”
Proceedings of the 51st Electronic Components and Technology Conference
,
IEEE Proceedings
, Orlando, pp.
950
956
.
12.
Zhang
,
C.
,
Lin
,
J. K.
, and
Li
,
L.
, 2001, “
Thermal Fatigue Properties of Lead-Free Solders on Cu and NiP Under Bump Metallurgies
,”
Proceedings of the 51st Electronic Components and Technology Conference
,
IEEE Proceedings
, Orlando, pp.
463
470
.
13.
Master
,
R. N.
,
Blish
,
R. C.
,
Morken
,
D.
, and
Adem
,
E.
, 2000, “
Kinetics of C4 Bump Degradation in Overly Aggressive HTOL
,”
Proceedings of the 50th Electronic Components and Technology Conference
,
IEEE Proceedings
, Las Vegas, pp.
60
63
.
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 by American Society of Mechanical Engineers
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