各向异性导电浆料封装柔性RFID标签嵌体的接触电阻及可靠性研究

Xiong-hui Cai, B. An, Yi-Ping Wu, Feng-shun Wu, Xiao-wei Lai
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引用次数: 17

摘要

本研究通过在热固性环氧树脂中混合微型球形Ag颗粒和潜固化剂制备ACA,并通过热压键合工艺将RFID倒装芯片组装在Al/PET、印刷Ag/PET和印刷Ag/纸天线上。采用改进的RFIC和上述三种天线,研究了fof组件在可靠性试验(热湿试验、85℃、RH 85%)前后的接触电阻和剪切粘接强度,以及ACA互连的退化机理。结果表明,接触电阻在可靠性试验后发生了变化,这是由于Al/PET天线与导电颗粒氧化、ACA胶粘剂、天线与倒装芯片的热膨胀系数(CTE)失配以及树脂后固化等因素共同作用的结果。膏体的进一步固化、树脂中积累的应变释放以及可靠性试验中吸湿引起的微观结构变化也会影响粘接强度。结果表明,引入后固化工艺有利于提高ACA封装fof组件的可靠性。选择抗氧化导体和天线的防热衬底可以减小接触电阻的位移,这对超高频RFID标签尤其有利。因此,印刷银/纸天线比大规模、廉价和快速制造RFID标签更受青睐。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on the contact resistance and reliability of flexible RFID tag inlays packaged by anisotropic conductive paste
In this work, ACA was prepared by mixing micro-sized spherical Ag particles and latent curing agent into thermo-set epoxy resin, and RFID flip chips were assembled on the Al/PET, printed Ag/PET and printed Ag/paper antennae through hot-press bonding process. The contact resistance and shear bonding strength before and after the reliability tests (hot humidity test, 85degC, RH 85%), and degradation mechanism of ACA interconnection for flip-chip-on-flex (FCOF) assembly were studied using modified RFIC and the three kinds of antennae mentioned above. It was found that the contact resistance changed after the reliability test, it was caused by the total results of oxidation of Al/PET antennae and conductive particles, mismatch of coefficient of thermal expansion (CTE) between the ACA adhesive, antennae and flip-chips and post curing of resin. And the bonding strength also affect by the further curing of paste, strain release accumulated in resin and the microstructure change caused by moisture absorption during the reliability test. It was concluded that it was benefit to improve the reliability of FCOF assembly packaged by ACA by introducing the post curing process. And it was suggested that selecting the anti-oxidation conductor and the anti-heat substrate of antennae could decrease the shift of contact resistance, which was especially favored for ultra-high frequency RFID tag. Therefore, the printed Ag/paper antenna was preferred to large scale, cheap and rapid manufacturing RFID tags.
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