智能功率集成电路的晶圆键合:垂直结构的集成

C. Harendt, W. Wondrak, U. Apel, H. Graf, B. Hofflinger, J. Korec, E. Penteker
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引用次数: 3

摘要

智能电源ic越来越多地应用于汽车电子,电机控制设备或平板显示器。为了满足对可靠性、低面积消耗和灵活性的要求,介质隔离优于自隔离或结隔离等其他隔离技术。在完全隔离的SOI晶圆上集成电源器件显示了键合SOI材料在此应用中的优势。但是,完全隔离将功率器件限制为仅适用于中等功率应用的面积消耗侧器件或上漏DMOS类型器件。具有高电流和高击穿电压能力的器件需要垂直晶体管类型。到目前为止,已经进行了不同的尝试,将垂直连接和介电隔离的区域集成在一个晶圆上。我们已经开发了一种工艺,允许在键合之前制造垂直连接区域和设备隔离,并且不需要特殊的校准。首先,对垂直接触区域进行图案化并覆盖氮化硅层。随后,v型槽被图案化、蚀刻和热氧化。除去氮化层后,v型槽内填充多晶硅。根据沉积条件,垂直接触区填充多晶硅或外延生长硅。通过化学-机械抛光发生变薄。与“经典”的直喷工艺一样,v型槽底部的氧化物起到抛光停止的作用,从而获得更好的SOI厚度均匀性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wafer bonding for intelligent power ICs: integration of vertical structures
Intelligent power ICs are increasingly desired for applications in automotive electronics, motor control devices or flat panel displays. In order to meet the requirements regarding reliability, low area consumption and flexibility the dielectric isolation is superior to the other isolation techniques such as self isolation or junction isolation. Integrated power devices on fully isolated SOI wafers showed the advantages of bonded SOI material for this application. However, the full isolation restricts the power devices to area consuming lateral devices or up-drain DMOS type devices only suitable for medium power applications. Devices with high current and high breakdown voltage capability require vertical transistor types. So far, different attempts have been made to integrate vertical connected and dielectrically isolated areas on one wafer. We have developed a process, which allows the fabrication of vertical connected areas and device isolation before bonding and requires no special alignment. First, the area for the vertical contact is patterned and covered with a silicon nitride layer. Subsequently, V-grooves are patterned, etched and thermally oxidised. After removal of the nitride layer the V-grooves are filled with polysilicon. Depending on the deposition conditions, the vertical contact area is filled with polysilicon or epitaxial grown silicon. Thinning occurs by chemo-mechanical polishing. As in the "classical" DI process the oxide at the bottom of the V-groove serves as a polishing stop resulting in a better SOI thickness uniformity.
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