Heterogeneous Integration of Vertical GaN Power Transistor on Si Capacitor for DC-DC Converters

Zechun Yu, S. Zeltner, N. Boettcher, G. Rattmann, J. Leib, C. F. Bayer, A. Schletz, T. Erlbacher, L. Frey
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Abstract

Point of load (PoL) converters are emerging as common solution for industrial applications, telecommunications, server, and aerospace. In this work, a topology is designed for a single stage 48 V to 1 V PoL converter by using new gallium nitride (GaN) devices and integrated silicon capacitors. Various wafer-level packaging concepts such as die-to-wafer bonding, wafer-level thinning, and through-silicon via (TSV) will be presented and discussed based on this topology. Furthermore, two novel devices will be developed and used for the packaging concepts. One is a GaN transistor with vertical channel, which will exhibit significantly lower power losses when switching and converting power. The other is an integrated silicon capacitor with lateral geometry, in which positive and negative electrodes are insulated from the substrate and formed on the same side. Simulation is performed to compare the parasitic inductance from the different concepts. A direct bonding process is shown to provide flexibility in engineering new device geometries and can be exploited to mitigate the electrical parasitics.
用于DC-DC变换器的垂直GaN功率晶体管在Si电容上的非均匀集成
负载点(PoL)转换器正在成为工业应用、电信、服务器和航空航天的通用解决方案。在这项工作中,采用新型氮化镓(GaN)器件和集成硅电容器,设计了单级48v至1v PoL转换器的拓扑结构。各种晶圆级封装概念,如晶圆键合,晶圆级减薄,并通过硅通孔(TSV)将提出和讨论基于这种拓扑结构。此外,将开发两种新型设备并用于包装概念。一种是具有垂直沟道的氮化镓晶体管,它在开关和转换功率时将显示出显着降低的功率损耗。另一种是具有横向几何形状的集成硅电容器,其中正极和负极与衬底绝缘并形成在同一侧。通过仿真比较了不同概念的寄生电感。直接键合工艺为工程新器件几何形状提供了灵活性,并可用于减轻电寄生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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