Hermetic Wafer Level Packaging of LED Modules with Phosphor Ceramic Converter for White Light Applications based on TSV Technology

K. Zoschke, Y. Eichhammer, H. Oppermann, C. Manier, M. Dijk, C. Weber, M. Hutter
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引用次数: 1

Abstract

In this work we present the development of a new hermetic wafer level packaging approach for fabrication of white light LEDs with suspended phosphor ceramic converter. In this new architecture, the ceramic converter is not directly attached to the LED chip but part of the package and is arranged with a defined distance to the LED. This enables the heat generated by the light conversion to be dissipated directly via the ceramic converter into the package instead of through the LED itself. The packaging approach relies on through silicon via (TSV) based silicon interposer wafers which are wafer to wafer bonded to silicon frame wafers using AuSn seal rings to form cavity wafers. The frame wafers have through cavities with sloped mirroring side walls to enable an optimal reflection of light out of the cavities and thus a high light efficiency of the mounted LEDs.The LEDs are bonded into the cavities onto the silicon interposer which feeds the electrical contacts to its back side. The cavities with the mounted LEDs are subsequently sealed with the phosphor converter ceramics. The created LED modules are assembled to test boards were the thermal resistance of the package was determined and compared with simulation results.
基于TSV技术的白光用荧光粉陶瓷转换器LED模组的晶圆级密封封装
在这项工作中,我们提出了一种新的密封晶圆级封装方法,用于制造具有悬浮荧光粉陶瓷转换器的白光led。在这种新架构中,陶瓷转换器不是直接连接到LED芯片上,而是封装的一部分,并且与LED保持一定的距离。这使得光转换产生的热量可以直接通过陶瓷转换器散发到封装中,而不是通过LED本身。封装方法依赖于基于硅通孔(TSV)的硅中间层晶圆,该晶圆与硅框架晶圆结合,使用AuSn密封环形成空腔晶圆。框架晶圆具有具有倾斜镜像侧壁的透腔,以使光从腔中最佳反射,从而使所安装的led具有高光效。led被连接到硅中间层的空腔中,硅中间层将电触点馈送到其背面。随后用荧光粉转换器陶瓷密封安装led的腔体。将制作的LED模组组装到测试板上,确定封装的热阻,并与模拟结果进行比较。
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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