In a plastic BGA package, the glass transition temperature of 170‐215°C for bismaleimide triazine (BT) substrate puts an upper ceiling to the usable wire bond temperature. To compensate for the limitation in thermal energy, high frequency thermosonic bonding was proposed and successfully demonstrated for plastic BGA wire bonding. Design of experiment (DOE) and response surface methods (RSM) for process optimisation were used; bonded areas were also analysed using scanning electron microscope (SEM). Of the four major bonding parameters were investigated, ultrasonic power and bond force appeared to be the most important control factor for wire pulls and ball shear force optimisation. The results show that bonding at low temperature is viable with the use of high frequency transducer wire bonder.
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1 December 1999
Technical Paper|
December 01 1999
High frequency wire bonding for PBGA package, a process optimisation approach Available to Purchase
Teo Kiat Choon;
Teo Kiat Choon
Philips Singapore Pte Ltd, Centre for Manufacturing Technology (CFT), Electronic Packaging and Joining, Singapore
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Victor G. Corpuz
Victor G. Corpuz
Philips Singapore Pte Ltd, Centre for Manufacturing Technology (CFT), Electronic Packaging and Joining, Singapore
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Publisher: Emerald Publishing
Online ISSN: 1758-812X
Print ISSN: 1356-5362
© MCB UP Limited
1999
Microelectronics International (1999) 16 (3): 22–35.
Citation
Kiat Choon T, Corpuz VG (1999), "High frequency wire bonding for PBGA package, a process optimisation approach". Microelectronics International, Vol. 16 No. 3 pp. 22–35, doi: https://doi.org/10.1108/13565369910293314
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