微小互连高度下的电子封装焊点微观组织
Microstructure of solder joints with micron stand-off height in electronic packaging
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摘要: 研究了互连高度分别为100,50,20,10μm四种不同互连高度的铜/锡/铜三明治结构微焊点的微观组织变化.结果表明,随互连高度的降低,焊料层中的铜浓度也随之升高,焊点两侧生成的Cu6Sn5金属间化合物层(intermetallic compound,IMC)厚度随之降低,但其所占焊点的比例却升高.根据IMC层厚度和焊料中铜的浓度,计算了不同互连高度微焊点所消耗的铜层厚度,发现消耗的铜基体厚度随着微焊点互连高度的降低而减少.老化过程中,焊点互连高度越低,IMC生长速度和IMC比例升高速度越快,微观组织变化越显著.Abstract: In present paper the microstructural change was studied when the stand-off height(SOH) of solder joints with Cu/Sn/Cu sandwich structure was reduced from 100μm to 50μm, 20μm and 10μm. With the reducing stand-off height, the Cu content increases in the solder bulk, and the Cu6Sn5 intermetallic layer formed at both sides decreases in thickness; while the proportion of IMC thickness to solder joint stand-off height increases. The thickness of the copper layer consumed by solder joints with different stand-off heights was calculated according to the formed IMC layer and Cu content in the solder bulk. It is found that the consumed copper thickness decreases with the reducing stand-off height. In the aging, the solder joint with lower SOH increases faster in IMC thickness and IMC proportion, leading to more dramatic microstructural change.