Title :
Experiment and Simulation of Board Level Drop Tests With Intentional Board Slap at High Impact Accelerations
Author :
Douglas, Stuart T. ; Al-Bassyiouni, Moustafa ; Dasgupta, Avirup
Author_Institution :
Dept. of Mech. Eng., Univ. of Maryland, College Park, MD, USA
Abstract :
This paper explores multiple impacts generated through fixture design to induce high accelerations in board level drop testing. Drop tests were conducted at accelerations as high as 30000 G using mechanical accelerators. Finite element analysis simulations were used to determine impact locations and acceleration magnitude. Wafer level chip scale package components were tested at the board level at accelerations ranging from 10000 to 30000 G. The clearance between the printed circuit board assembly and the fixture are parametrically varied in the investigation to understand the effects of the clearance. Experiments and simulation show interesting results due to dynamic modal interaction.
Keywords :
chip scale packaging; crack detection; finite element analysis; fixtures; impact (mechanical); integrated circuit reliability; printed circuit testing; semiconductor device reliability; wafer level packaging; acceleration magnitude; board level drop tests; dynamic modal interaction; finite element analysis simulations; fixture design; high impact accelerations; impact locations; induce high accelerations; intentional board slap; mechanical accelerators; printed circuit board assembly; wafer level chip scale package components; Acceleration; Analytical models; Clamps; History; Life estimation; Stress; Testing; Acceleration; chip scale packaging; damping; electronic components; electronics packaging; failure analysis (FA); finite element analysis (FEA); impact; impulse testing; life testing; printed circuits; shock (mechanics); test equipment;
Journal_Title :
Components, Packaging and Manufacturing Technology, IEEE Transactions on
DOI :
10.1109/TCPMT.2013.2293761
