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Recent years many technical papers had discussed a lot on copper wire boned devices reliability by conducting various reliability tests [1, 2]. The most common failure analysis methods used are cross section, SEM and FIB to study the IMC growth and acid decapsulation to remove the mold compound to inspect die surface [1]. Usually wire pull and ball shear test were used to evaluate the wire and ball...
Thermally stressed high-density multi-tier copper wire bonded IC packages are the most challenging tasks in IC package decapsulation. For acid decapsulation, the hardening of epoxy in molding compound after stress tests requires much longer etching duration. As a result, copper bond wires suffer severe corrosion damage compared to un-stressed package counterparts. For plasma decapsulation, the high-density...
Semiconductor packages with 23 um copper bond wires are decapsulated by an atmospheric pressure Microwave Induced Plasma (MIP). Potential damage to the copper bond wires due to fluorine or oxygen radicals in the plasma is investigated. Parameters like CF4 amount, input power level, and O2 addition that may influence the Si3N4 passivation etching rate are evaluated. Theory behind the changes in Si...
Improvements of the Microwave Induced Plasma system especially designed for decapsulation of copper wire bonded integrated circuit (IC) packages are described. The system integrates a programmable XYZ-stage and a Charge-Coupled Device (CCD) camera allowing computer controlled process and real-time imaging on the details of the IC package during plasma etching. Parameters that affect the etching profile...
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