Flip-Chip Bonder (Finetech): Difference between revisions
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(Created page with "{{tool|{{PAGENAME}} |picture=FinetechFlip.jpg |type = Packaging |super= Tony Bosch |phone=(805)839-3918x217 |location=Bay 3 |email=bosch@ece.ucsb.edu |description = Finetech Flip…") |
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|picture=FinetechFlip.jpg |
|picture=FinetechFlip.jpg |
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|type = Packaging |
|type = Packaging |
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|super= Tony Bosch |
|super= Tony Bosch |
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|super2= Bill Millerski |
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|phone=(805)839-3918x217 |
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|location=Bay 3 |
|location=Bay 3 |
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|email=bosch@ece.ucsb.edu |
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|description = Finetech Flip Chip Bonder |
|description = Finetech Flip Chip Bonder |
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|manufacturer = [http://www.finetechusa.com/bonders/products/fineplacerr-lambda.html Finetech] |
|manufacturer = [http://www.finetechusa.com/bonders/products/fineplacerr-lambda.html Finetech] |
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= About = |
= About = |
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The Finetech Fineplacer Lambda tool is designed for flip-chip bonding of two parts with an alignment accuracy |
The Finetech Fineplacer Lambda tool is designed for flip-chip bonding of two parts with an alignment accuracy of about 1um. The system is a semiautomatic bonder with full computer control of the bonding parameters and an integrated side-camera system for observation during the bond. Sample sizes as small as 500um on a side to as large as 50mm on a side can be accommodated. Forces from as small as 0.3N to as large as 500N can be applied to the parts. Bonding temperatures up to 400C are possible. The system also has a formic acid module (reduced atmosphere environment) that is used to prevent oxide formation during heated indium bonding. |
Latest revision as of 18:22, 30 August 2022
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About
The Finetech Fineplacer Lambda tool is designed for flip-chip bonding of two parts with an alignment accuracy of about 1um. The system is a semiautomatic bonder with full computer control of the bonding parameters and an integrated side-camera system for observation during the bond. Sample sizes as small as 500um on a side to as large as 50mm on a side can be accommodated. Forces from as small as 0.3N to as large as 500N can be applied to the parts. Bonding temperatures up to 400C are possible. The system also has a formic acid module (reduced atmosphere environment) that is used to prevent oxide formation during heated indium bonding.