P. Fine scite author profile

P. Fine

5Publications

65Citation Statements Received

2Citation Statements Given

How they've been cited

179

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Affiliations

Texas Instruments (United States)

Publications

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Underfill of flip chip on laminates: simulation and validation

Nguyen

Quentin

Fine

et al. 1999

IEEE Trans. Comp. Packag. Technol.

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The flow characteristics of a number of underfills were evaluated with quartz dies of different patterns and pitches bonded on different substrate surfaces. Perimeter, mixed array, and full array patterns were tested. Observations on the flow front uniformity, streaking, voiding, and filler segregation were collected. The information was compared with the results predicted by a new simulation code, plastic integrated circuit encapsulationcomputer aided design (PLICE-CAD) under DARPA-funded development. The two-phase model of the combined resin and air takes into account geometrical factors such as bumps and die edges, together with boundary conditions in order to track accurately the propagation of the flow fronts. The two-phase flow field is based on the volume-of-fluid (VOF) methodology embedded in a general-purpose three-dimensional (3-D) flow solver. Index Terms-Capillary flow, filler settling, flip chip, flow simulation, flow streaking, full array pattern, mixed array pattern, organic laminates, peripheral pattern, quartz dies, underfill flow.

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Flip chip underfill flow characteristics and prediction

Fine

Cobb

Nguyen

2000

IEEE Trans. Comp. Packag. Technol.

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High performance underfills development - materials, processes, and reliability

Nguyen¹,

Hoang²,

Fine³

et al.

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Underfill of flip chip on laminates: simulation and validation

Nguyen¹,

Quentin²,

Fine³

et al.

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Computational simulation of underfill encapsulation of flip-chip ICs. I. Flow modeling and surface-tension effects

Yang

Bayyuk²,

Krishnan³

et al.

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P. Fine

Underfill of flip chip on laminates: simulation and validation

Flip chip underfill flow characteristics and prediction

High performance underfills development - materials, processes, and reliability

Underfill of flip chip on laminates: simulation and validation

Computational simulation of underfill encapsulation of flip-chip ICs. I. Flow modeling and surface-tension effects

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