DocumentCode
2722526
Title
In-situ strain measurement with metallic thin film sensors
Author
Taylor, Christine ; Sitaraman, Suresh K.
Author_Institution
Comput.-Aided Simulation of Packaging Reliability (CASPaR) Lab., Georgia Inst. of Technol., Atlanta, GA, USA
fYear
2012
fDate
May 29 2012-June 1 2012
Firstpage
641
Lastpage
646
Abstract
With increasing importance of 3D packaging systems, more and more dies will be stacked on top of each other and connected using through silicon vias (TSVs) and solder bumps. In-situ stress measurements near these bump pads are important to help understand the evolution of die stresses associated with the packaging process. Unlike piezoresistive doped Si sensors that require high-temperature processing, metal-based sensors use low-temperature fabrication processes. The sensor fabrication uses standard cleanroom processes such as UV lithography and physical vapor deposition. In this paper, thin-film micro-scale metallic (Ni/Cr) resistors have been studied with different design dimensions including gauge width, film thickness, and spacing between the lines in the serpentine pattern. Silicon test strips with sensors have been subjected to four-point bend testing, and finite-element simulations have been carried out to mimic the four-point bend testing as well as to determine stress contours where the sensors are placed.
Keywords
bending; finite element analysis; integrated circuit interconnections; integrated circuit measurement; piezoresistive devices; solders; strain sensors; three-dimensional integrated circuits; ultraviolet lithography; 3D packaging systems; bump pads; die stresses; film thickness; finite element simulations; four point bend testing; gauge width; in situ strain measurement; low temperature fabrication processes; metal based sensors; metallic thin film sensors; physical vapor deposition; piezoresistive doped Si sensors; sensor fabrication; serpentine pattern; solder bumps; stress contours; thin-film microscale metallic resistors; through silicon vias; ultraviolet lithography; Electrodes; Resistance; Sensors; Silicon; Strain; Stress; Strips;
fLanguage
English
Publisher
ieee
Conference_Titel
Electronic Components and Technology Conference (ECTC), 2012 IEEE 62nd
Conference_Location
San Diego, CA
ISSN
0569-5503
Print_ISBN
978-1-4673-1966-9
Electronic_ISBN
0569-5503
Type
conf
DOI
10.1109/ECTC.2012.6248899
Filename
6248899
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