Interconnect Strain Test can help reduce mechanical failures.
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Press Release Summary:
New quantitative test methodology within IPC/JEDEC-9707, Spherical Bend Test Method for Characterization of Board Level Interconnects, lets users determine how much strain packages can take before reliability degradation. Test methodology calls for 8 points of contact arranged in circular pattern. According to IPC's Aileen Allen, test methodology aims to "impose the worst-case bend mode that the package may see in the field and to determine strain limits."
Original Press Release:
How Much Strain Can a Package Take?
Spherical Bend Tests within IPC/JEDEC-9707 Can Reduce Mechanical Failures
BANNOCKBURN, Ill., USA - Manufacturing processes, handling and printed circuit assembly (PCA) test can put a lot of mechanical stresses on packages, causing failures. As grid array packages get larger, identifying how to set safe levels for these steps becomes more difficult. A new quantitative test methodology within IPC/JEDEC-9707, Spherical Bend Test Method for Characterization of Board Level Interconnects, lets users determine how much strain packages can take before reliability degradation.
"Spherical bend puts the most stress on a ball grid array's (BGAs) corner interconnects," said Aileen Allen, a reliability engineer at Hewlett-Packard and member of the IPC 6-10d SMT Attachment Reliability Test Methods Task Group that led the effort to develop the standard. "The aim of this test methodology is to impose the worst-case bend mode that the package may see in the field and to determine strain limits that envelope any bend modes that could be seen during manufacturing, assembly or test."
The test methodology calls for eight points of contact arranged in a circular pattern. A PCA with a single BGA in the center of the printed board is placed component side down onto the support pins, and load is applied on the backside of the BGA. Strain gages are placed adjacent to the component per the recommended gage placement. The PCA is deflected to strain levels of interest, and failure analysis is performed to determine the degree of damage induced by flexing to these strain levels. An iterative approach is used to determine the strain at which no damage is incurred, which is the strain limit.
"These strain limits can then be used in the field to reduce reliability risk by ensuring strain on products do not exceed these limits," added Allen.
IPC members may purchase the standard for $36. The standard industry price is $72. For more information or to purchase IPC/JEDEC-9707, visit ipc.org/9707.
About IPC
IPC (www.IPC.org) is a global trade association based in Bannockburn, Ill., dedicated to the competitive excellence and financial success of its 3,000 member companies which represent all facets of the electronics industry, including design, printed board manufacturing, electronics assembly and test. As a member-driven organization and leading source for industry standards, training, market research and public policy advocacy, IPC supports programs to meet the needs of an estimated $2.02 trillion global electronics industry. IPC maintains additional offices in Taos, N.M.; Arlington, Va.; Stockholm, Sweden; Moscow, Russia; Bangalore, India; and Shanghai, Shenzhen and Beijing, China.
