Kevin Kröhnert, M. Wöhrmann, M. Schiffer, Georg Friedrich, D. Starukhin, M. Schneider-Ramelow, W. Mayer, T. Chaloun, T. Galler, C. Waldschmidt, M. Schulz-Ruhtenberg, N. Ambrosius, U. Hansen
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The level sensor includes our sensor packaging platform with an integrated SiGe ASIC and an RF port. Due to the hermetic sealing of the ASIC inside, it is possible to utilize the package in hazardous environments, in this case in chemical microreactors. The package only measures 5.9 x 4.4 x 0.8 mm3 and uses TGVs (Through-Glass Vias) in this miniaturized sensor systems as vertical DC and RF interconnections with low parasitics which leads to low losses, while maintaining hermetic sealing. The performance of the TGVs regarding their reliability and their RF capabilities was investigated before and showed superior properties with less effort for fabrication. In this paper we will focus on all aspects of the final package with a fully functional radar ASIC inside. 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引用次数: 2
摘要
在这项工作中,我们提出了基于玻璃中间层的多功能密封传感器封装平台,该平台适用于工业计量,MEMS,光子学,生命科学和过程自动化等应用。密封玻璃封装可以包括无源器件和不同的有源器件(雷达、压力、红外传感器等)。之所以使用玻璃,是因为它具有优异的耐化学性、机械强度、有利的射频特性和低成本,为这种封装提供了理想的性能。该平台的能力以工作频率为160GHz的雷达液位计的形式进行了演示。液位传感器包括我们的传感器封装平台,集成SiGe ASIC和RF端口。由于ASIC内部的密封,可以在危险环境中使用该封装,在这种情况下是在化学微反应器中。该封装尺寸仅为5.9 x 4.4 x 0.8 mm3,并在这种小型化传感器系统中使用tgv (Through-Glass过孔)作为垂直DC和RF互连,具有低寄生性,可降低损耗,同时保持密封性。之前对tgv的可靠性和射频性能进行了研究,结果表明,tgv的性能优越,制造成本低。在本文中,我们将重点介绍具有全功能雷达ASIC内部的最终封装的各个方面。我们考虑了基于晶圆级工艺的加工链,设计和仿真,对实现的雷达传感器演示器进行分析,以及对最终封装的可靠性和密封性进行表征和评估。将重点介绍玻璃中间层的加工步骤和所有必须解决的挑战,包括通孔形成、TGV填充和两个中间层与内部ASIC的密封性。新型演示系统的表征和评估将考虑射频性能、雷达特性、可靠性和玻璃封装的密封性
Versatile Hermetically Sealed Sensor Platform for High Frequency Applications
In this work, we present the realized versatile hermetically sealed sensor packaging platform based on glass interposers which is applicable in industrial metrology, MEMS, photonics, life sciences and process automation application, among others. The sealed glass package can include passives and different active devices (radar, pressure, infrared sensors, etc.). Glass is used because it offers ideal properties for such a package by providing excellent chemical resistance, mechanical strength, advantageous RF characteristics and low costs. The capabilities of the platform are demonstrated in form of a radar level sensor which is operated at 160GHz. The level sensor includes our sensor packaging platform with an integrated SiGe ASIC and an RF port. Due to the hermetic sealing of the ASIC inside, it is possible to utilize the package in hazardous environments, in this case in chemical microreactors. The package only measures 5.9 x 4.4 x 0.8 mm3 and uses TGVs (Through-Glass Vias) in this miniaturized sensor systems as vertical DC and RF interconnections with low parasitics which leads to low losses, while maintaining hermetic sealing. The performance of the TGVs regarding their reliability and their RF capabilities was investigated before and showed superior properties with less effort for fabrication. In this paper we will focus on all aspects of the final package with a fully functional radar ASIC inside. We consider the processing chain based on wafer-level processes, design and simulation, the analysis of the realized radar sensor demonstrator as well as the characterization and evaluation of the final package regarding reliability and hermeticity. The glass interposer processing steps and all the challenges which had to be solved for the via formation, the TGV filling and the hermetically sealing of the two interposers with the ASIC inside will be highlighted. The characterization and evaluation of the novel demonstrator system will consider RF performance, radar characteristics, reliability and hermetic sealing of the glass package
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