Laser soldering for chip-on-glass mounting in flat panel display application

J. H. Lee; W. Y. Kim; D. H. Ahn; Y. H. Lee; J. S. Kim

doi:10.1007/s11664-001-0158-0

Laser soldering for chip-on-glass mounting in flat panel display application

J. H. Lee, W. Y. Kim, D. H. Ahn, Y. H. Lee, J. S. Kim

Dept. of Materials Science & Engineering

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

Chip-on-glass (COG) mounting of area array electronic packages was attempted by heating the rear surface of a contact pad film deposited on a glass substrate. The pads consisted of an adhesion (i.e., Cr or Ti) and a top coating layer (i.e., Ni or Cu) was heated by an UV laser beam transmitted through the glass substrate. The laser energy absorbed on the pad raised the temperature of a solder ball which was in physical contact with the pad, forming a reflowed solder bump. The effects of the adhesion and top coating layer on the laser reflow soldering were studied by measuring the temperature profile of the ball during the laser heating process. The results were discussed based on the measurement of reflectivity of the adhesion layer. In addition, the microstructures of solder bumps and their mechanical properties were examined.

Original language	English
Article number	158
Pages (from-to)	1255-1261
Number of pages	7
Journal	Journal of Electronic Materials
Volume	30
Issue number	9
DOIs	https://doi.org/10.1007/s11664-001-0158-0
State	Published - 2001

Keywords

Chip-on-glass (COG)
Interfacial microstructure
Laser heating
Shear strenght
Solder balls

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10.1007/s11664-001-0158-0

Cite this

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title = "Laser soldering for chip-on-glass mounting in flat panel display application",

abstract = "Chip-on-glass (COG) mounting of area array electronic packages was attempted by heating the rear surface of a contact pad film deposited on a glass substrate. The pads consisted of an adhesion (i.e., Cr or Ti) and a top coating layer (i.e., Ni or Cu) was heated by an UV laser beam transmitted through the glass substrate. The laser energy absorbed on the pad raised the temperature of a solder ball which was in physical contact with the pad, forming a reflowed solder bump. The effects of the adhesion and top coating layer on the laser reflow soldering were studied by measuring the temperature profile of the ball during the laser heating process. The results were discussed based on the measurement of reflectivity of the adhesion layer. In addition, the microstructures of solder bumps and their mechanical properties were examined.",

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AU - Lee, J. H.

AU - Kim, W. Y.

AU - Ahn, D. H.

AU - Lee, Y. H.

AU - Kim, J. S.

PY - 2001

Y1 - 2001

N2 - Chip-on-glass (COG) mounting of area array electronic packages was attempted by heating the rear surface of a contact pad film deposited on a glass substrate. The pads consisted of an adhesion (i.e., Cr or Ti) and a top coating layer (i.e., Ni or Cu) was heated by an UV laser beam transmitted through the glass substrate. The laser energy absorbed on the pad raised the temperature of a solder ball which was in physical contact with the pad, forming a reflowed solder bump. The effects of the adhesion and top coating layer on the laser reflow soldering were studied by measuring the temperature profile of the ball during the laser heating process. The results were discussed based on the measurement of reflectivity of the adhesion layer. In addition, the microstructures of solder bumps and their mechanical properties were examined.

AB - Chip-on-glass (COG) mounting of area array electronic packages was attempted by heating the rear surface of a contact pad film deposited on a glass substrate. The pads consisted of an adhesion (i.e., Cr or Ti) and a top coating layer (i.e., Ni or Cu) was heated by an UV laser beam transmitted through the glass substrate. The laser energy absorbed on the pad raised the temperature of a solder ball which was in physical contact with the pad, forming a reflowed solder bump. The effects of the adhesion and top coating layer on the laser reflow soldering were studied by measuring the temperature profile of the ball during the laser heating process. The results were discussed based on the measurement of reflectivity of the adhesion layer. In addition, the microstructures of solder bumps and their mechanical properties were examined.

KW - Chip-on-glass (COG)

KW - Interfacial microstructure

KW - Laser heating

KW - Shear strenght

KW - Solder balls

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JO - Journal of Electronic Materials

JF - Journal of Electronic Materials

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Laser soldering for chip-on-glass mounting in flat panel display application

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Keywords

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