2007 IEEE International Reliability Physics Symposium Proceedings. 45th Annual 2007
DOI: 10.1109/relphy.2007.369939
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Investigation and Improvement of Fast Temperature-Cycle Reliability for DMOS-Related Conductor Path Design

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Cited by 20 publications
(8 citation statements)
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“…Stress tests have been carried out at relatively low current density levels, therefore electromigration phenomena are not responsible for the device failure (see Figure 3: simulation by R3D tool from Silicon Frontline [6] of current density on top n-metal, and n-1 metal). Failure occurs because of inter-metal oxide cracking, due to metal plastic deformation (see Figure 4), leading to metal short when the metal extrudes inside the crack (see Figure 5 for AlCu thin metal) [5,6,7].…”
Section: Power Pulsing Testsmentioning
confidence: 99%
“…Stress tests have been carried out at relatively low current density levels, therefore electromigration phenomena are not responsible for the device failure (see Figure 3: simulation by R3D tool from Silicon Frontline [6] of current density on top n-metal, and n-1 metal). Failure occurs because of inter-metal oxide cracking, due to metal plastic deformation (see Figure 4), leading to metal short when the metal extrudes inside the crack (see Figure 5 for AlCu thin metal) [5,6,7].…”
Section: Power Pulsing Testsmentioning
confidence: 99%
“…When considering thin film specimens, especially structured ones, as in microelectronics applications, focused ion beam (FIB) is a widely used preparation technique for investigating general defects, including voids [23][24][25][26]. Compared to embedded mechanical cross-sections, FIB has the advantage that no time-consuming pre-preparation steps are required and that imaging is also possible between different milling steps, allowing for tomographic void analyses [27].…”
Section: Introductionmentioning
confidence: 99%
“…This leads to inhomgenities in aluminum thickness and can be observed as buckling in the DICM-image. In the center of the structure the deformation becomes maximum what is typical for wide conductor lines [6] The deformation of the aluminum causes an increaing stress on the ILD and leads to ILD cracking and electric short-circuits. With the thermomechanical test structures it is shown that the use of copper as power metallization provides enhanced power-cycle capabilities compared to aluminum.…”
Section: Discussionmentioning
confidence: 99%
“…This can be attributed to the improved thermal capability and mechanical stability. A detailed analysis of the difference in failure evolution for 3.2 µm and 12.8 µm wide lines covered by an aluminum plate was given in [6]. The devices with 12.8 µm wide lines fail in the center whereas the structures with 3.2 µm fail close to the maximum gradient in temperature.…”
Section: A Thermomechanical Test Structuresmentioning
confidence: 99%