Association News

IPC Standard covers Surface Mount Placement Characterization.

Press Release Summary:

January 10, 2012 - To help determine best placement equipment setup to meet needs for speed, capability, and accuracy, IPC released IPC-9850 Rev A, Surface Mount Placement Characterization, making it easier to quantify performance of placement equipment. New method calculates Expanded Measurement Uncertainty, which combines all measurement uncertainty of system. Individual factors included in EMU are gage repeatability and reproducibility variance, non-linearity, resolution, hysteresis, and artifact uncertainty.

IPC-Association Connecting Electronics Industries - Bannockburn, IL

Original Press Release

IPC Releases IPC-9850A, Surface Mount Placement Characterization

Press release date: January 6, 2012

Revised Standard Simplifies Comparison of Placement Equipment BANNOCKBURN, Ill., USA, - As EMS companies have ramped up speeds to meet the high demand for electronics, equipment manufacturers have responded by developing machines that quickly shift from handling one package style to another with fewer sacrifices in precision. To help industry determine the best equipment setup to meet needs for speed, capability and accuracy, IPC - Association Connecting Electronics Industries® has released revision A to IPC-9850, Surface Mount Placement Characterization, making it far simpler to quantify the performance of placement equipment. "This standard lets you look at totally different types of machines and get a better comparison for how they will each work in your environment," said Michael Cieslinski, senior engineer with Panasonic Factory Solution Company of America, and chair of the IPC SMT Component Placement Equipment Subcommittee that updated IPC-9850. The comparison shows how machine speeds change as accuracy requirements rise. The evaluations are performed by placement of test components on test boards that are specified in the standard. These boards have five different types of component parts with various quantities of each. According to Kris Roberson, IPC manager of assembly technology, if a customer wants to compare two different placement equipment vendors, IPC-9850A will allow a truer comparison in placement speed and capability. IPC-9850A now complies with common methodologies for measurement system analysis (MSA) and is compatible with the approach used by ASQ and other groups. The new method calculates the expanded measurement uncertainty (EMU) which combines all the measurement uncertainty of the system. The individual factors included in the EMU are gage repeatability and reproducibility (GR&R) variance, non-linearity, resolution, hysteresis, and artifact uncertainty. Calculating the EMU is a more stringent test of measurement capability since it adds many additional factors that were not calculated in the original IPC-9850 GRR and accuracy report, while keeping the same passing process to tolerance ratio of less than 25 percent. IPC members may request a free single-user download of IPC-9850A by sending an e-mail to MemberTechRequests@ipc.org within 90 days of the document's publication. After that date, IPC members may purchase the standard for $55. The standard industry price is $110. For more information or to purchase a copy of IPC-9850A, visit www.ipc.org/9850. 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 3,100 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.

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