Issues in the Design, Modeling, and Manufacture of Multiple Joint Solder Self-Assembled Micro-Electro-Mechanical Systems (MEMS)

Abstract

Using the surface tension of molten solder to assemble micro-sized structures or micro-electro-mechanical systems (MEMS), otherwise known as "solder self-assembly" is a recent development. Complex three-dimensional assemblies, previously not realizable, can now be realized using surface micromachined MEMS and solder assembly. Not only can complex or non-complex assemblies be realized using solder self-assembly, but realized by adopting means already established commercially for mass production. This work is the first in the world to quantify or address the known entirety of major issues that go into realizing multiple joint solder self-assembled polysilicon surface micromachined MEMS. An assembly process for multiple joint solder self- assembled MEMS is developed with a yield of 94.3%. Chemical, temperature, and timing issues are detailed for the assembly process. Guidelines on the proper design of hinges, solder pads, and connecting structures for multiple joint solder self- assembled MEMS are developed. 259 two joint test structures were designed, assembled, and measured. An assembly model of series connected n-solder joint, microstructures is developed. The experimental results are compared to the model predictions.

Document Details

Document Type

Technical Report

Publication Date

Aug 06, 2001

Accession Number

ADA395144

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