论文信息 - Numerical analysis and experimental tests for solder joints power cycling optimization

Numerical analysis and experimental tests for solder joints power cycling optimization

Abstract Power cycling is the most realistic stress test for thermo-mechanical accelerated failure mechanisms in power devices. The fast evolution in solder materials and packaging techniques makes it necessary to find the proper accelerate test conditions for any specific package/mounting solution. This paper deals with a procedure for determining the power cycling optimal parameters (power rating, period, duty-cycle, cooling conditions) for accelerated stress tests on solder joints of SMD power devices mounted on a specific board. The procedure is based on FEM numerical analysis and preliminary experimental tests. Simulation results are presented; they are validated by comparison with measurements performed using an ad-hoc experimental setup. Early power cycling is also shown.

Nicola Delmonte | Paolo Cova | Diego Chiozzi

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