Electronics Forum | Wed Jul 01 04:54:28 EDT 2015 | jvercamm
hi, the last post on pad cratering dates from 2012. We have (likely similar) problems with a RoHS 783 solder ball BGA size 29x29mm^2 (organic package BT), pitch is 1mm and solder ball diam is 0.5mm the field failure is after 12 months, almost exclu
Electronics Forum | Mon Jul 23 14:39:11 EDT 2012 | hegemon
I would think that wave solder beneath a BGA component might be a little bit stressful. The board will be expanding much faster than the BGA on the topside. This will cause some stress to the solder joints that might show up as the failure you are
Industry News | 2013-06-11 19:23:26.0
The SMTA is pleased to announce that the program for SMTA International is finalized and available on-line at www.smta.org/smtai and registration is open.
Industry News | 2012-02-23 14:43:13.0
IPC has announced the winners of the Best U.S. and International Papers of IPC APEX EXPO® 2012. Selected through a ballot process by the event’s Technical Program Committee, the papers will be presented at IPC APEX EXPO, February 28–March 1, at the San Diego Convention Center.
Technical Library | 2013-01-03 20:27:54.0
Electronics assemblies with large flip-chip BGA packages can be prone to either pad cratering or brittle intermetallic (IMC) failures under excessive PCB bending. Pad cratering cracks are not detected by electrical testing or non-destructive inspection methods, yet they pose a long term reliability risk since the cracks may propagate under subsequent loads to cause electrical failure. Since the initiation of pad cratering does not result in an instantaneous electrical signature, detecting the onset of this failure has been challenging. An acoustic emission methodology was recently developed by the authors to detect the onset of pad cratering. The instantaneous release of elastic energy associated with the initiation of an internal crack, i.e., Acoustic Emission (AE), can be monitored to accurately determine the onset of both pad cratering and brittle intermetallic (IMC) failures.
Technical Library | 2022-10-11 20:15:14.0
The increased temperatures associated with Pb-free processes have produced significant challenges for PWB laminates. Newly developed laminates have different curing processes, are commonly filled with ceramic particles or micro-clays and can have higher Tg values. These changes which are aimed at improving the materials resistance to thermal excursions and maintaining electrical integrity through primary attach and rework operations have also had the effect of producing harder resin systems with lower fracture toughness.
Events Calendar | Thu Oct 03 00:00:00 EDT 2019 - Thu Oct 03 00:00:00 EDT 2019 | ,
IPC Tech Ed Webinar Series: Ball Grid Array (BGA) and Bottom Termination Component (BTC) Design and Assembly Challenges: Reflow Profiling to Achieve Low Defect Rates and Successful Assembly! – Part 2
Events Calendar | Mon Apr 23 00:00:00 EDT 2018 - Thu Apr 26 00:00:00 EDT 2018 | Shanghai, China
SMTA China East Conference 2018
Investigation of Pad Cratering in Large Flip-Chip BGA using Acoustic Emission SMTnet Express January 3, 2013, Subscribers: 26072, Members: Companies: 9076, Users: 34113 Investigation of Pad Cratering in Large Flip-Chip BGA using Acoustic Emission
Pad Cratering - The Invisible Threat to the Electronics Industry SMTnet Express September 6, 2012, Subscribers: 25455, Members: Companies: 8972, Users: 33613 Pad Cratering - The Invisible Threat to the Electronics Industry First published
ASYMTEK Products | Nordson Electronics Solutions | https://www.nordson.com/en/divisions/dage/test-types/first-bond-ball-pull-stud-bump-pull?con=t&page=13
. First bond ball pull utilises cold bump pull jaw technology to apply a vertical load (a pull test) to ball bonds and stud bumps. Ball shear tests can sometimes promote pad cratering due to the aggressive nature of the bonding process which can weaken the ball bonds
Surface Mount Technology Association (SMTA) | https://www.smta.org/smtai/call_for_papers.cfm
@smta.org Advanced Packaging/Components: 2.5/3D Packaging and Integration BGA/CSP Biomedical Packaging Component Storage Connector Technology Copper Pillars Copper Wire Bonding Diffusion Bonding Embedded and Miniature Passives Environmental
