ACI Technologies Inc. (ACI) is a scientific research corporation dedicated to the advancement of electronics manufacturing processes and materials for The Department of Defense and industry. This video provides an overview of our commercial service
Industry News | 2016-06-27 14:54:49.0
In September of 2015, IPC delivered revision D of IPC-6012, Qualification and Performance Specification for Rigid Printed Boards. Building on this base standard, IPC has developed the first automotive addendum, IPC-6012DA, Automotive Applications Addendum to IPC-6012D Qualification and Performance Specification for Rigid Printed Boards.
Industry News | 2020-10-04 15:08:41.0
IPC is known for developing addendums to some of its most widely used standards for specific industry sector use, including military/aerospace, space flight, automotive and telecommunications. Now, IPC has responded to requests from the medical device segment of the electronics industry and has released IPC-6012EM,Medical Applications Addendum to IPC-6012E, Qualification and Performance Specification for Rigid Printed Boards.
Industry News | 2004-09-07 18:32:13.0
NORTHBROOK, Ill., September, 2004
Industry News | 2020-03-08 16:49:19.0
IPC announces the release of five newly revised standards covering several areas of the supply chain, IPC/WHMA-A-620D, Requirements and Acceptance for Cable and Wire Harness Assemblies; IPC-2223E, Sectional Design Standard for Flexible/Rigid-Flexible Printed Boards; IPC-2591-Version 1.1, Connected Factory Exchange (CFX); IPC-1791A, Trusted Electronic Designer, Fabricator and Assembler Requirements; and IPC- 6012E, Qualification and Performance Specification for Rigid Printed Boards.
Industry News | 2023-04-17 08:38:56.0
IPC is now accepting abstracts for the High Reliability Forum, the international conference focusing on Class 3 and safety critical electronics for mil-aero, automotive, medical, and long-life applications that are subjected to harsh use environments. The High Reliability Forum will be held October 17-19, 2023, at the Hilton Baltimore BWI Airport in Linthicum (Baltimore), Md.
One time the candidate for IPC 6012 “The Acceptability of Printed Boards” has been trained as a certification specialist they will require to be periodically re-certified in order to retain their credentials. This requires a re-certification process.
Career Center | Wylie, Texas USA | Engineering,Production,Quality Control
Candidate needed for source inspection to the requirements of Mil-P-55110 IPC 6011, class 1,2 and 3 IPC 6012, class 1,2 and 3, PWB-PWG, Exp. with PWA and soldering necessary.
Industry Directory | Manufacturer
X-Parts Way Technology Co., Limited was established by a team of highly specialized engineers with the aim to provide turnkey solutions for reliable EMS (Electronics Manufacturing Services) .
Technical Library | 2021-07-20 20:02:29.0
During the manufacturing of printed circuit boards (PCBs) for a Flight Project, it was found that a European manufacturer was building its boards to a European standard that had no requirement for copper wrap on the vias. The amount of copper wrap that was measured on coupons from the panel containing the boards of interest was less than the amount specified in IPC-6012 Rev B, Class 3. To help determine the reliability and usability of the boards, three sets of tests and a simulation were run. The test results, along with results of simulation and destructive physical analysis, are presented in this paper. The first experiment involved subjecting coupons from the panels supplied by the European manufacturer to thermal cycling. After 17 000 cycles, the test was stopped with no failures. A second set of accelerated tests involved comparing the thermal fatigue life of test samples made from FR4 and polyimide with varying amounts of copper wrap. Again, the testing did not reveal any failures. The third test involved using interconnect stress test coupons with through-hole vias and blind vias that were subjected to elevated temperatures to accelerate fatigue failures. While there were failures, as expected, the failures were at barrel cracks. In addition to the experiments, this paper also discusses the results of finite-element analysis using simulation software that was used to model plated-through holes under thermal stress using a steady-state analysis, also showing the main failure mode was barrel cracking. The tests show that although copper wrap was sought as a better alternative to butt joints between barrel plating and copper foil layers, manufacturability remains challenging and attempts to meet the requirements often result in features that reduce the reliability of the boards. Experimental and simulation work discussed in this paper indicate that the standard requirements for copper wrap are not contributing to the overall board reliability, although it should be added that a design with a butt joint is going to be a higher risk than a reduced copper wrap design. The study further shows that procurement requirements for wrap plating thickness from Class 3 to Class 2 would pose little risk to reliability (minimum 5 μm/0.197 mil for all via types).Experimental results corroborated by modeling indicate that the stress maxima are internal to the barrels rather than at the wrap location. In fact, the existence of Cu wrap was determined to have no appreciable effect on reliability.
IPC is the trade association for the printed wiring board and electronics assembly industries.
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