Reliability Investigation of Extremely Large Ratio Fan-Out Wafer-Level Package with Low Ball Density for Ultra-Short-Range Radar

Author(s):  
P.S. Huang ◽  
C.K. Yu ◽  
W.S. Chiang ◽  
M.Z. Lin ◽  
Y.H. Fang ◽  
...  
2000 ◽  
Author(s):  
Y. T. Lin ◽  
P. J. Tang ◽  
K. N. Chiang

Abstract The demands of electronic packages toward lower profile, lighter weight, and higher density of I/O lead to rapid expansion in the field of flip chip, chip scale package (CSP) and wafer level packaging (WLP) technologies. The urgent needs of high I/O density and good reliability characteristic lead to the evolution of the ultra high-density type of non-solder interconnection such as the wire interconnect technology (WIT). The new technology using copper posts to replace the solder bumps as interconnections shown a great improvement in the reliability life. Moreover, this type of wafer level package could achieve higher I/O density, as well as ultra fine pitch. This research will focus on the reliability analysis of the WIT package structures in material selection and structural design, etc. This research will use finite element method to analyze the physical behavior of packaging structures under thermal cycling condition to compare the reliability characteristics of conventional wafer level package and WIT packages. Parametric studies of specific parameters will be performed, and the plastic and temperature dependent material properties will be applied to all of the models.


Author(s):  
Renu Sharma ◽  
Isha Yadav ◽  
Anupriya Katiyar ◽  
Milap Singh ◽  
Shaveta ◽  
...  

2021 ◽  
Vol 9 ◽  
Author(s):  
Paolo Conci ◽  
Giovanni Darbo ◽  
Andrea Gaudiello ◽  
Claudia Gemme ◽  
Stefano Girardi ◽  
...  

Pixel technology is commonly used in the tracking systems of High Energy Physics detectors with physical areas that have largely increased in the last decades. To ease the production of several square meters of sensitive area, the possibility of using the industrial Wafer Level Packaging to reassemble good single sensor tiles from multiple wafers into a reconstructed full wafer is investigated. This process reconstructs wafers by compression molding using silicon charged epoxy resin. We tested high glass transition temperature low-stress epoxy resins filled with silica particles to best match the thermal expansion of the silicon die. These resins are developed and characterized for industrial processes, designed specifically for fan-out wafer-level package and panel-level packaging. In order to be compatible with wafer processing during the hybridization of the pixel detectors, such as the bump-bonding, the reconstructed wafer must respect challenging technical requirements. Wafer planarity, tile positioning accuracy, and overall thickness are amongst the main ones. In this paper the description of the process is given and preliminary results on a few reconstructed wafers using dummy tiles are reported. Strategies for Wafer Level Packaging improvements are discussed together with future applications to 3D sensors or CMOS pixel detectors.


Author(s):  
Soon Wee Ho ◽  
Leong Ching Wai ◽  
Soon Ann Sek ◽  
Daniel Ismael Cereno ◽  
Boon Long Lau ◽  
...  

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