Accurate prediction of PQFP warpage

G. Kelly; C. Lyden; W. Lawton; J. Barrett; A. Saboui; J. Exposito; F. Lamourelle

doi:10.1109/WPTMT.1994.763530

Accurate prediction of PQFP warpage

G. Kelly
, C. Lyden
, W. Lawton
, J. Barrett
, A. Saboui
, J. Exposito
, F. Lamourelle

Tyndall IPES (Energy4IOT)

Research output: Contribution to conference › Paper › peer-review

Abstract

This papet addresses the use of finite element techniques to predict waipage m plastic encapsulated ICs. A basic modeling assumption adopted in such analyses is that aftei ejection fiom the mold, waipage occurs due to the contraction of the molding compound as the package cools to room temperature. It is shown that this Isasic starting assumption can lead to incorrect predictions of the package warpage. Measurements of the warpage of a plastic power package with temperature indicate that the package is significantly deformed at the molding temperature. This is attributed to chemical shrinlge of the molding compound. A new F.E. Model of package warpage after encapsulation is proposed which considers both the TCE shrinkage and chemical shrinkage of the molding compound. This leads to accurate predictions of warpage, particularly where heat spreaders make the package asymmetric. Measurements of a 208 lead power PQFP are used to verify this improved model.

Original language	English
DOIs	https://doi.org/10.1109/WPTMT.1994.763530
Publication status	Published - 1994
Event	1994 Workshop on MCM and VLSI Packaging Techniques and Manufacturing Technologies, WPTMT 1994 - Windsor, United Kingdom Duration: 8 Jun 1994 → 10 Jun 1994

Conference

Conference	1994 Workshop on MCM and VLSI Packaging Techniques and Manufacturing Technologies, WPTMT 1994
Country/Territory	United Kingdom
City	Windsor
Period	8/06/94 → 10/06/94

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 9 Industry, Innovation, and Infrastructure

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10.1109/WPTMT.1994.763530

Cite this

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title = "Accurate prediction of PQFP warpage",

abstract = "This papet addresses the use of finite element techniques to predict waipage m plastic encapsulated ICs. A basic modeling assumption adopted in such analyses is that aftei ejection fiom the mold, waipage occurs due to the contraction of the molding compound as the package cools to room temperature. It is shown that this Isasic starting assumption can lead to incorrect predictions of the package warpage. Measurements of the warpage of a plastic power package with temperature indicate that the package is significantly deformed at the molding temperature. This is attributed to chemical shrinlge of the molding compound. A new F.E. Model of package warpage after encapsulation is proposed which considers both the TCE shrinkage and chemical shrinkage of the molding compound. This leads to accurate predictions of warpage, particularly where heat spreaders make the package asymmetric. Measurements of a 208 lead power PQFP are used to verify this improved model.",

author = "G. Kelly and C. Lyden and W. Lawton and J. Barrett and A. Saboui and J. Exposito and F. Lamourelle",

note = "Publisher Copyright: {\textcopyright} 1994 Workshop on MCM and VLSI Packaging Techniques and Manufacturing Technologies, WPTMT 1994. All rights reserved.; 1994 Workshop on MCM and VLSI Packaging Techniques and Manufacturing Technologies, WPTMT 1994 ; Conference date: 08-06-1994 Through 10-06-1994",

year = "1994",

doi = "10.1109/WPTMT.1994.763530",

language = "English",

}

TY - CONF

T1 - Accurate prediction of PQFP warpage

AU - Kelly, G.

AU - Lyden, C.

AU - Lawton, W.

AU - Barrett, J.

AU - Saboui, A.

AU - Exposito, J.

AU - Lamourelle, F.

PY - 1994

Y1 - 1994

N2 - This papet addresses the use of finite element techniques to predict waipage m plastic encapsulated ICs. A basic modeling assumption adopted in such analyses is that aftei ejection fiom the mold, waipage occurs due to the contraction of the molding compound as the package cools to room temperature. It is shown that this Isasic starting assumption can lead to incorrect predictions of the package warpage. Measurements of the warpage of a plastic power package with temperature indicate that the package is significantly deformed at the molding temperature. This is attributed to chemical shrinlge of the molding compound. A new F.E. Model of package warpage after encapsulation is proposed which considers both the TCE shrinkage and chemical shrinkage of the molding compound. This leads to accurate predictions of warpage, particularly where heat spreaders make the package asymmetric. Measurements of a 208 lead power PQFP are used to verify this improved model.

AB - This papet addresses the use of finite element techniques to predict waipage m plastic encapsulated ICs. A basic modeling assumption adopted in such analyses is that aftei ejection fiom the mold, waipage occurs due to the contraction of the molding compound as the package cools to room temperature. It is shown that this Isasic starting assumption can lead to incorrect predictions of the package warpage. Measurements of the warpage of a plastic power package with temperature indicate that the package is significantly deformed at the molding temperature. This is attributed to chemical shrinlge of the molding compound. A new F.E. Model of package warpage after encapsulation is proposed which considers both the TCE shrinkage and chemical shrinkage of the molding compound. This leads to accurate predictions of warpage, particularly where heat spreaders make the package asymmetric. Measurements of a 208 lead power PQFP are used to verify this improved model.

UR - https://www.scopus.com/pages/publications/85063693463

U2 - 10.1109/WPTMT.1994.763530

DO - 10.1109/WPTMT.1994.763530

M3 - Paper

AN - SCOPUS:85063693463

T2 - 1994 Workshop on MCM and VLSI Packaging Techniques and Manufacturing Technologies, WPTMT 1994

Y2 - 8 June 1994 through 10 June 1994

ER -

Accurate prediction of PQFP warpage

Abstract

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UN SDGs

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