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In Part 1, I presented several options with which to accomplish blind and through-hole via filling. In this edition of “Trouble in Your Tank,” I will address filling blind and through-holes with polymeric pastes.
Via Fill Paste
Often the term “plugging paste” is used to de-scribe the method and material for completely filling blind vias and through-holes. In general, paste-filling material selection is at the request of the end-user and is indicated for a number of reasons. It has been my experience that major OEMs are driving the industry to migrate to the high Tg/low CTE plugging paste formulations for high-density applications. In addition, these formulations are of a non-conductive nature that provides a high-quality plugged via and is also cost-effective (Figure 1). Limitations abound, depending on PCB thickness, via diameter, and paste properties.
Properties of Via Fill Materials
What attributes are needed for a high-performance via fill material? The following are specific requirements for the plugging paste material:
- Good adhesion between copper and paste, even under temperature influences
- Good adhesion of copper, dielectrics, or photoresist
- Solvent-free, one-pack system
- No air inclusions in the paste
- Tg > 140°C
- CTE < 40 ppm (below Tg)
- No shrinkage during curing
- Easily planarized
Additionally, the plugging paste material must maintain a reasonable shelf life at room temperatures. Keep in mind that these materials are thermally reactive.
It is highly recommended that the fabricator use a 100% solids content of the paste material with the thermally cross-linkable epoxy resin and specially designed ceramic fillers. The ceramic filling material restricts Z-axis expansion when the filled vias are subjected to a thermal load. Interestingly, the coefficient of thermal expansion must remain in the 40–60 ppm range to ensure that via cracks do not occur in the filled via. In addition, it is critical that Z-axis expansion is minimized to prevent the plated cap from lifting (Figure 2).
As noted previously, a properly formulated plugging paste for via fill must maintain a low CTE at and above 140°C. The ceramic particles that are formulated in the resin system function to restrain Z-axis expansion under thermal loading.
The ceramic fillers can be seen in Figure 3 under high magnification of the fully cured polymeric paste.
There is no disputing the fact that the vias must be filled void-free and maintain integrity through-out various thermal excursions. Z-axis expansion notwithstanding, the second critical thermal characteristic is the glass transition temperature of the cured paste material. Typically a Tg of 140°C is ideal. However, the Tg can be increased by prolonging the final curing time and increasing curing temperature from 140°C to approximately 175–180°C. It is desired to have the highest possible Tg without impacting the flow and metallization properties.
With increased densification leading to higher I/Os, smaller components, higher assembly temperatures, and smaller vias, the CTE gains increased importance. Thus, the CTE values of the paste must be minimized to relieve stress that will cause the plug to over-expand, allowing the overmetalized copper de-posit to lift . It is critical that to attain long-term stability within the filled via under load conditions, load amplitudes must be minimized as much as possible. This means that the CTE must be as low as possible over the temperature ranges.
Regardless of the method of via filling chosen, this is a process that is here to stay. Via filing technology is a critical aspect of HDI PCB fabrication and the never-ending quest for miniaturization.
1. Karsten Andra, “Hole Plugging Technology for Multilayers and HDI Packages,” EPC PCB Convention, 1999.
2. Internal communication with Lackwerke Peters.