Defects Database

Martin WickhamThe wrong tool, or wrong procedures, is typically to blame.

Crimping is a reliable process, provided design and process engineers follow the crimp supplier’s guidelines on crimp wire capacity and the crimp tool settings. Both of these points would have prevented these horror stories. In recent years, good inspection and in-process control of the wire and cable preparation has been enhanced with the launch of IPC/WHMA-620, “Requirements and Acceptance for Cable and Wire Harness Assemblies.”

From discussions with those responsible for calibration, certification and approval of crimping, it is easy to see what can go wrong. When correct procedures are followed, crimps are extremely reliable, but when production does not want to buy the right tools, calibrate equipment or train staff, it can go wrong. Big time.

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Martin WickhamAn insufficient bond between copper layers can lead to electrical test failure.

Delamination of printed circuit boards is typically associated with large blisters or bubbles in the board after soldering, but there are different examples of this phenomenon. The examples in FIGUREs 1a and b show via popping after reflow soldering, also known as “copper via rivet.”

In the images, the through via has elongated as the board expanded during heating. As layers in the multilayer board delaminated, further strain was placed on the copper plating until failure occurred. The board did fail electrical test, but the only problem visible on the surface of the board was the cracking of the solder mask, which can clearly be seen.

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Steps for determining the root cause of peeling problems.

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Martin WickhamSolve capillary issues by increasing solids content.

It is very important to control conformal coating thickness on a printed board assembly. Problems with coating over different surfaces, particularly sharp corners that can lead to shorts from tin whiskers, have been demonstrated many times.

FIGURES 1 and 2 show capillary action on an SOIC and QFP, respectively, where the thickness of the coating is much higher around the leads and the body of the devices. With very high fluidity and spray coating, liquid capillaries under the package are starving the area of the board close to the edge of the pads.

 

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Martin WickhamUsing x-ray in a nonstandard way is useful in process development.

Here are three different examples of paste after placement or prior to through-hole component insertion. The images shown here are not necessarily defects, and it may seem strange to use x-ray to inspect paste deposits after printing, but it can be very useful for in-process control and ideal for preproduction runs.

FIGURE 1 shows a QFN/LGA. In this case we are interested in the placement force and the degree of paste displacement on the center pad under the device. Normal practice is to look at the degree of paste variation between printing and placement. It’s even more important when there are multiple rows of outer terminations.

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Martin WickhamWarping during reflow can leave solder balls distorted.

In cases where pad size, solder paste volume and solder spheres on a BGA are consistent in size, the solder joint size variation shown in FIGURE 1 is typically soldering-related. Modern x-ray systems can measure the joint sizes automatically and output a spreadsheet with the data. It is not uncommon to take these measurements on pre-production prototype builds, when product is working. This provides a permanent record of the ball variation on a satisfactory product. If problems are experienced in volume production, the results can be easily compared.

 

 

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