B3.1 - Assembly and Interconnection Technologies for Sensors for Very High Temperature Applications

Event

AMA Conferences 2013
2013-05-14 - 2013-05-16
Nürnberg

Band

Proceedings SENSOR 2013

Chapter

B3 - Packaging

Author(s)

J. Wilde, P. Wagner, R. Zeiser - University of Freiburg (Germany)

Pages

229 - 235

DOI

10.5162/sensor2013/B3.1

ISBN

978-3-9813484-3-9

Price

free

Abstract

This work aims at the development of technologies to assemble, interconnect and protect sensor elements operating in harsh environments up to 500 °C. Silicon test-chips were mounted on substrates made of Al2O3, AlN and Si3N4 to examine their influence on the sensor. Active metal brazing, glass soldering and ceramic bonding were used as mounting technologies. The stress induced in the chip by the die attachment process was analyzed by optical deformation measurements of the chips as well as by FEM-simulations and by resistance measurements. The mechanical stability of the assemblies was tested with shear-tests before and after 100 hours storage at 500 °C. In our study the glass-soldering
process on an AlN substrate appeared to be the most suited technology when the reliability of SiC-MEMS is the principal criterion. In a second step an interconnection technique based on fine wire bonding was developed. When metallurgical systems consisting of Pt or Pd are used for the metallization and the wires, these interconnect systems can be stable. Up to date, we could verify the stability after temperature soak at 500 °C and during operation at 300 °C.

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