Low stress flip-chip package for pressure sensors operating at 500 °C

R. Zeiser, S. Ayub, P. Wagner, J. Muller, S. Henneck, J. Wilde
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引用次数: 1

Abstract

This work presents a method for a reliable assembly and interconnection of MEMS for very high temperatures. A flip-chip concept for resistive micromechanical pressure sensors with a platinum thin film was developed and sensor-assemblies were fabricated. The investigated metallized ceramic substrates were AlN, Si3N4, a Low-Temperature-Cofired-Ceramic (LTCC) and a zirconia-silicate (ZrSiO4). A borosilicate glass-solder was the die-attachment material and gold stud-bumps were the interconnection. The thermal-mechanical stresses in the sensors, induced by the packaging process due to material-dependent mismatches were analyzed with FEM and optical deformation measurements from 20 to 500 °C. The comparison of the obtained experimental and FE-results revealed a strong influence of the applied substrate on the thermal-mechanical stresses in the chip-membrane which is affecting the output-signal and reliability. Both methods were in good accordance. The two specific silicon-matched ceramic substrates LTCC and ZrSiO4 reduced the stresses in the sensor-element significantly. Furthermore, the electrical characterization of assembled test-sensors revealed a correlation between the package-induced stresses in the chip-membrane and the shift of the sensor-signal after the assembly-process.
低应力倒装芯片封装的压力传感器工作在500°C
这项工作提出了一种在高温下可靠组装和互连MEMS的方法。提出了一种基于铂薄膜的电阻式微机械压力传感器的倒装芯片概念,并制作了传感器组件。所研究的金属化陶瓷衬底为AlN、Si3N4、低温共烧陶瓷(LTCC)和硅酸锆(ZrSiO4)。一种硼硅玻璃焊料是模具连接材料,金钉凸点是互连材料。在20 ~ 500°C范围内,利用有限元法和光学变形测量分析了封装过程中由于材料不匹配引起的传感器热机械应力。实验结果与有限元结果的比较表明,衬底对芯片膜的热机械应力有很大的影响,影响了输出信号和可靠性。两种方法都很一致。两种特定的硅匹配陶瓷衬底LTCC和ZrSiO4显著降低了传感器元件中的应力。此外,组装测试传感器的电学特性揭示了封装引起的芯片膜应力与组装过程后传感器信号位移之间的相关性。
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