Fraunhofer-Institut für Zuverlässigkeit und Mikrointegration IZM

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  • Publication
    A novel hermetic encapsulation approach for the protection of electronics in harsh environments
    ( 2022-11-11)
    Spanier, Malte
    ;
    Pawlikowski, Jakub
    ;
    Ziesche, Steffen
    ;
    Kappert, Holger
    ;
    Ostmann, Andreas
    ;
    Jägle, Martin
    ;
    Schneider-Ramelow, Martin
    Technologies and building blocks for the realization of reliable electronic systems for the use in harsh environments are attracting increasing intention. Harsh environments are for instance high temperature, pressure, mechanical stress and/or submerge into corrosive liquids, or the combination thereof. In the first place electronic components like integrated circuits or passive components which constitute the electronic system need to be operational under harsh conditions. On system level also the interconnections and package materials need to withstand the loading conditions. Printed circuit board embedding technology is a highly promising approach to realize this kind of electronic systems. Embedded semiconductors and passive components are mechanically protected from the environmental stresses by the epoxy/glass fibre compound into which they are encapsulated. Furthermore, novel types of high temperature laminate materials are commercially available since a few years. In an electroless plating process a fully hermetic metallic encapsulation can be added to the modules. This encapsulation acts as a protective barrier when they are immersed into corrosive liquids or gases. The external electrical connections out of the package are realized by ceramics with metallic feed throughs. They are assembled onto the modules (prior to the metallic encapsulation) using sinter-lamination-technology, i.e. the simultaneous build-up lamination and a sintering process. Two application demonstrators were realized in order to show the general viability of the encapsulation process. All used materials are commercially available. Industrial process equipment was used throughout the manufacturing. Subsequent reliability tests provide evidence for the general robustness and functionality of the modules under harsh environmental conditions. This work was part of the Fraunhofer lighthouse project “eHarsh” which was funded by the Fraunhofer Society.