Masato Miyatake

Newly developed ultra low CTE materials for thin core PKG

To achieve the recent improvements in miniaturization and performance of mobile devices (Smart phone, Tablet PC etc.), the semiconductor PKG substrate installed in these devices is demanded to be thinner and higher in density. However, the thinner PKG substrate may cause poor connection reliability due to increased warpage by soldering. The ultra low CTE (Coefficient of thermal expansion) core material has been required as the key solution for the reduction of the warpage of the thinner PKG substrate such as PoP (Package on package). We have just developed two types of ultra low CTE core materials named E-705G and E-800G to meet with the requirement, applying our original resin systems and the filler surface treatment technologies. The developed materials show the ultra low CTE(X, Y) property (2.8-3.3 ppm/°C) similar to that of glass fabric itself. Also E-705G has high flexural modulus over 33-36 GPa at room temperature. Regarding E-800G, it has the good dielectric characteristics (lower dielectric constant and dissipation factor), can be applicable higher speed PKG. Both of the materials have high reliability and high heat resistance which is suitable for the lead-free soldering process. Confirming the warpage property, we evaluated the warpage behavior of PoP (bottom) constructions before/after assembly process. The newly developed materials showed the much lower warpage than the conventional low CTE material.

Ultra low CTE (1.8 ppm/°C) core material for next generation thin CSP

Along with the advancement in miniaturizing of mobile devices, typified by smart phones and tablet PCs, the semiconductor PKG substrate installed in these devices is demanded to be thinner and higher in density. As one of the most innovative solutions, the PoP (package on package) technology, which has the three-dimensional construction, has been expanding rapidly in recent years. However, the thinner PKG such as PoP tends to warp at the assembly process and cause the decrease in the connection reliability. Therefore ultra low CTE (coefficient of thermal expansion) core materials have been needed as a key solution for the reduction of the warpage for PoP. Recently, we have developed new ultra low CTE core material named E-770G for next generation thin CSP, applying new resin systems, featuring low shrinkage and low residual stress. In particular, E-770G has achieved ultra low CTE of 1.8 ppm/°C which leads to significant reduction of the warpage. Furthermore, it has low dissipation factor at high frequencies (Df: 0.005 at 1 GHz). So its also applicable to high speed PKG applications. Confirming the warpage property, we evaluated the warpage behavior of the bottom PKG before/after assembly process. E-770G showed the much lower warpage than the conventional ultra low CTE core material.

New ultra low CTE material to reduce the warpage of thinner PKG

Along with the advancement in miniaturizing of mobile devices, typified by smart phones and tablet PCs, the semiconductor PKG substrate installed in these devices is demanded to be thinner and higher in density. As one of the most innovative solutions, the PoP (package on package) technology, which has the three-dimensional construction, has been expanding rapidly in recent years. However, the thinner PKG substrate tends to warp at the assembly process and cause the decrease in the connection reliability. Therefore ultra low CTE (coefficient of thermal expansion) materials have been needed as a key solution for the reduction of the warpage for thinner PKG substrates. Recently, we have developed new ultra low CTE material named E-770G for next-generation semiconductor PKG substrate, applying new resin systems, featuring low shrinkage and low residual stress. In particular, E-770G has achieved ultra low CTE (X) of 1.8 ppm/°C which leads to significant reduction of the warpage. Furthermore, it has low dissipation factor at high frequencies (Df: 0.005 at 1 GHz). So its also applicable to high speed PKG applications. Confirming the warpage property, we evaluated the warpage behavior of thinner PKG substrate before/after assembly process. E-770G showed the much lower warpage than the conventional ultra low CTE material.

Newly developed ultralow CTE materials for thinner PKG applications

The higher density packaging technologies have been required to reduce the area of substrate for smaller portable handheld products and devices such as smart phones and tablet PCs. So, the three-dimensional packaging is becoming to be a key technology to minimize the total size of products and devices. However, the thinner construction of PoP (package on package) may cause the poor connection reliability because of the warpage of the substrate at the soldering process. So, the reduction of the warpage of the substrate by the ultralow CTE (coefficient of thermal expansion) materials may be the key to overcome. Recently, we have developed two types of ultralow CTE materials to meet with the requirement applying our new resin systems and a filler treatment technology. The developed materials show the ultralow CTE(X) of 2.8-3.3 ppm/OC which is close to that of the glass fabric. The resulted warpage using the material is much lower than that of the conventional low CTE material. We are also developing a technology for the further lowering of CTE for future applications.