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Through an aggressive product development program which includes experiment and simulation, Amkor has developed the next level of WLCSP (CSPnltrade), a product which exhibits superior board level reliability when subjected to drop impact, a strong requirement for portable electronics. Failure mechanism of WLCSP under drop test has been established. Depending on type of WLCSP and test board design,...
The thermomechanical fatigue of solder joints on the system level is more complex to predict than on the board level. The damage of the solder joints of an electronic device in an ECU (electronic control unit) depends on the thermal expansion mismatch between the materials of the device and the PCB (printed circuit board), so called local mismatch, as well as on the global deformation of the PCB induced...
The board level drop test is intended to evaluate and compare the drop performance of surface mount electronic components. The JEDEC standardize for board level drop test address test board construction, design, material, component locations and test conditions etc. However, in actual drop test conditions, continued drops usually loosen up the mounting screw, which is not considered in JEDEC. This...
A set of experimental and computer simulation methods has been applied to reliability analysis of a newly designed resin transfer molded power electronics module for automotive applications, comprising the glass-fiber epoxy multi-layer PCB, populated with various electronic packages. Evaluation of thermo-mechanical stability, determination of moisture ingress, and testing the adhesion quality between...
This work will present case studies of three types of flexible printable circuits subjected to different loading conditions in order to evaluate their technologies regarding mechanical reliability. Typical causes of failure in electronic devices are associated with mechanical stress, moisture, heat from transportation and field use. Typically manufacturers carry out tests to evaluate the reliability...
Rigid-flexible printed circuit boards (RFPCB) has the advantages of providing not only the flexibility and bendability required by many electronic products, but also the reliability required by the key electronic components. In this study, based on one kind of RFPCB which would be used for a wearable device prototype, the structure optimization was performed by simulations. Through the structural...
The bump on flexible lead (BoFL) is a chip-to-substrate interconnect technology which uses flexible structures to accommodate the CTE mismatch between the chip and PCB substrate and consequently should be reliable without underfill. To achieve a high flexibility, the lead-free bump is located on a flexible lead. The flexible lead consists of a copper redistribution layer (RDL) embedded in a polyimide-bridge...
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