TY - GEN
T1 - Evaluation of residual stress in a transistor using micron scale strain sensors
AU - Sasaki, Takuya
AU - Veta, Nobuki
AU - Miura, Hideo
PY - 2008
Y1 - 2008
N2 - Thermal and intrinsic stresses that occur during thin-fihn processing and assembly processes vary the residual stress in transistors. The residual stress causes the shift of electronic functions of dielectric and semiconductor materials and degrades their mechanical reliability. Therefore, it is ilnportant to Ineasure the residual stress in transistor structures. In this study, we have measured the local distribution of the residual stress on a transistor formation surface of an LSI chip assembled by using a flip chip structure with an area-arrayed metallic bumps by applying strain sensor chips. was found that the amplitude of the local residual stress distribution in the stacked chips reached about 250 MPa. This local stress distribution caused the local shift of electronic functions of transistors by about 10%. The residual stress in a transistor after thin-film processing was also measured by using these strain gauges. Transistor structures were formed on the gauges and the change of the stress was Ineasured by removing the thin films by focused ion beams. It was confirmed that both the thin film processing-induced stress and the assembly-induced stress affect the final residual stress in a transistor structure.
AB - Thermal and intrinsic stresses that occur during thin-fihn processing and assembly processes vary the residual stress in transistors. The residual stress causes the shift of electronic functions of dielectric and semiconductor materials and degrades their mechanical reliability. Therefore, it is ilnportant to Ineasure the residual stress in transistor structures. In this study, we have measured the local distribution of the residual stress on a transistor formation surface of an LSI chip assembled by using a flip chip structure with an area-arrayed metallic bumps by applying strain sensor chips. was found that the amplitude of the local residual stress distribution in the stacked chips reached about 250 MPa. This local stress distribution caused the local shift of electronic functions of transistors by about 10%. The residual stress in a transistor after thin-film processing was also measured by using these strain gauges. Transistor structures were formed on the gauges and the change of the stress was Ineasured by removing the thin films by focused ion beams. It was confirmed that both the thin film processing-induced stress and the assembly-induced stress affect the final residual stress in a transistor structure.
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U2 - 10.1109/EMAP.2008.4784275
DO - 10.1109/EMAP.2008.4784275
M3 - Conference contribution
AN - SCOPUS:64049104403
SN - 9781424436217
T3 - 2008 10th International Conference on Electronic Materials and Packaging, EMAP 2008
SP - 247
EP - 250
BT - 2008 10th International Conference on Electronic Materials and Packaging, EMAP 2008
T2 - 2008 10th International Conference on Electronic Materials and Packaging, EMAP 2008
Y2 - 22 October 2008 through 24 October 2008
ER -