Underfill and mold compound influence on PoP aging under high current and high temperature stress

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

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  • Universite de Bordeaux
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OriginalspracheEnglisch
Titel des SammelwerksElectronics System Integration Technology Conference, ESTC 2010 - Proceedings
PublikationsstatusVeröffentlicht - 2010
Veranstaltung3rd Electronics System Integration Technology Conference, ESTC 2010 - Berlin, Deutschland
Dauer: 13 Sept. 201016 Sept. 2010

Publikationsreihe

NameElectronics System Integration Technology Conference, ESTC 2010 - Proceedings

Abstract

In consequence of the general densification of electronic components, the stress being submitted to the packages aggravates while the size of the internal interconnections shrinks. Against the background of an increasing reliability issue, this paper focuses on reliability aspects within PoP assemblies, submitted to high current and mechanical stress conditions. The role of underfill and molding compound (MC) on temperature management, migration phenomena and stress reduction in a ball grid array (BGA) was investigated. Therefore, thermal-electrical-mechanical finite element simulations were conducted using ANSYS® and a model of a bump chain being common for PoP structures. With the results, migration mechanisms like electro- or thermo-induced migration in bumps were calculated.

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Underfill and mold compound influence on PoP aging under high current and high temperature stress. / Meinshausen, L.; Weide-Zaage, K.; Frémont, H.
Electronics System Integration Technology Conference, ESTC 2010 - Proceedings. 2010. 5642803 (Electronics System Integration Technology Conference, ESTC 2010 - Proceedings).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Meinshausen, L, Weide-Zaage, K & Frémont, H 2010, Underfill and mold compound influence on PoP aging under high current and high temperature stress. in Electronics System Integration Technology Conference, ESTC 2010 - Proceedings., 5642803, Electronics System Integration Technology Conference, ESTC 2010 - Proceedings, 3rd Electronics System Integration Technology Conference, ESTC 2010, Berlin, Deutschland, 13 Sept. 2010. https://doi.org/10.1109/ESTC.2010.5642803
Meinshausen, L., Weide-Zaage, K., & Frémont, H. (2010). Underfill and mold compound influence on PoP aging under high current and high temperature stress. In Electronics System Integration Technology Conference, ESTC 2010 - Proceedings Artikel 5642803 (Electronics System Integration Technology Conference, ESTC 2010 - Proceedings). https://doi.org/10.1109/ESTC.2010.5642803
Meinshausen L, Weide-Zaage K, Frémont H. Underfill and mold compound influence on PoP aging under high current and high temperature stress. in Electronics System Integration Technology Conference, ESTC 2010 - Proceedings. 2010. 5642803. (Electronics System Integration Technology Conference, ESTC 2010 - Proceedings). doi: 10.1109/ESTC.2010.5642803
Meinshausen, L. ; Weide-Zaage, K. ; Frémont, H. / Underfill and mold compound influence on PoP aging under high current and high temperature stress. Electronics System Integration Technology Conference, ESTC 2010 - Proceedings. 2010. (Electronics System Integration Technology Conference, ESTC 2010 - Proceedings).
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title = "Underfill and mold compound influence on PoP aging under high current and high temperature stress",
abstract = "In consequence of the general densification of electronic components, the stress being submitted to the packages aggravates while the size of the internal interconnections shrinks. Against the background of an increasing reliability issue, this paper focuses on reliability aspects within PoP assemblies, submitted to high current and mechanical stress conditions. The role of underfill and molding compound (MC) on temperature management, migration phenomena and stress reduction in a ball grid array (BGA) was investigated. Therefore, thermal-electrical-mechanical finite element simulations were conducted using ANSYS{\textregistered} and a model of a bump chain being common for PoP structures. With the results, migration mechanisms like electro- or thermo-induced migration in bumps were calculated.",
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T1 - Underfill and mold compound influence on PoP aging under high current and high temperature stress

AU - Meinshausen, L.

AU - Weide-Zaage, K.

AU - Frémont, H.

N1 - Copyright: Copyright 2011 Elsevier B.V., All rights reserved.

PY - 2010

Y1 - 2010

N2 - In consequence of the general densification of electronic components, the stress being submitted to the packages aggravates while the size of the internal interconnections shrinks. Against the background of an increasing reliability issue, this paper focuses on reliability aspects within PoP assemblies, submitted to high current and mechanical stress conditions. The role of underfill and molding compound (MC) on temperature management, migration phenomena and stress reduction in a ball grid array (BGA) was investigated. Therefore, thermal-electrical-mechanical finite element simulations were conducted using ANSYS® and a model of a bump chain being common for PoP structures. With the results, migration mechanisms like electro- or thermo-induced migration in bumps were calculated.

AB - In consequence of the general densification of electronic components, the stress being submitted to the packages aggravates while the size of the internal interconnections shrinks. Against the background of an increasing reliability issue, this paper focuses on reliability aspects within PoP assemblies, submitted to high current and mechanical stress conditions. The role of underfill and molding compound (MC) on temperature management, migration phenomena and stress reduction in a ball grid array (BGA) was investigated. Therefore, thermal-electrical-mechanical finite element simulations were conducted using ANSYS® and a model of a bump chain being common for PoP structures. With the results, migration mechanisms like electro- or thermo-induced migration in bumps were calculated.

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BT - Electronics System Integration Technology Conference, ESTC 2010 - Proceedings

T2 - 3rd Electronics System Integration Technology Conference, ESTC 2010

Y2 - 13 September 2010 through 16 September 2010

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