Low-cost direct chip attach: Comparison of SMD compatible FC soldering with anisotropically conductive adhesive FC bonding

Low-cost direct chip attach: Comparison of SMD compatible FC soldering with anisotropically conductive adhesive FC bonding

Small modules based on laminate substrates are often used as a functional subunit in electronic applications. Most of them are made by chip and wire techniques as one kind of bare chip assembly to fulfill size reduction requirements. Low cost flip-chip technology is one of the most promising approac...

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Bibliographic Details
Published in:2nd 1998 IEMT/IMC Symposium (IEEE Cat. No.98EX225) pp. 358 - 363
Main Authors: Behner, U., Czaya, C.-P., Haug, R., Hauschild, F.-D., Jiang, H., Kaloudis, M., Kotthaus, S., Kuschel, S., Schuetz, R., Schultze, F., Treutler, C.P.O., Vogel, W.
Format: Conference Proceeding
Language:English
Published: IEEE 1998
Subjects:
Anisotropic magnetoresistance
Assembly
Bonding
Conductive adhesives
Consumer electronics
Costs
Gold
Laminates
Soldering
Wire
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Summary:Small modules based on laminate substrates are often used as a functional subunit in electronic applications. Most of them are made by chip and wire techniques as one kind of bare chip assembly to fulfill size reduction requirements. Low cost flip-chip technology is one of the most promising approaches for further cost and size reduction. In this paper, a special car radio submodule is chosen as an example. We compare a SMD compatible FC soldering process using eutectic solder bumps and underfilling with an anisotropically conductive adhesive (ACA) FC bonding process using tape or paste materials. For FC soldering, electroless maskless Ni/Au plating for under bump metallization (UBM) was chosen. The solder deposition itself is done by stencil printing, while other cost efficient deposition techniques on the market have been observed. The FC assembly is integrated into a standard SMD line. Different underfill methods for quick underfilling are shown, and failure mechanisms and lifetime predictions of assembled flip chips are demonstrated. For ACA-FC bonding, electroless Ni/Au bumping is also used. An assembly process for ACAs using a semi-automatic FC bonder is developed. In order to reduce the mounting time, the ACA has been precured. Aspects of different process flows including ACA deposition techniques, tape and paste adhesives and filler materials are discussed. The influence of high current, climate, and thermal cycling on contact resistance and the low frequency noise spectrum is shown. We describe the benefits and disadvantages of both techniques and discuss the potential for further development and applications.
ISBN:9780780350908
0780350901
DOI:10.1109/IEMTIM.1998.704699