Numerical simulation of heat transfer in chip-in-board package

Joon Hyoung Park; Hee Soo Shim; Sun Kyoung Kim

doi:10.3795/KSME-B.2013.37.1.075

Numerical simulation of heat transfer in chip-in-board package

Joon Hyoung Park
, Hee Soo Shim
, Sun Kyoung Kim

Dept. of Mechanical System and Design Engineering

Seoul National University of Science and Technology (SNUST)

Research output: Contribution to journal › Article › peer-review

Abstract

Demands for semiconductor devices are dramatically increasing, and advancements in fabrication technology are allowing a step-up in the number of devices per unit area. As a result, semiconductor devices require higher heat dissipation, and thus, cooling solutions have become important for guaranteeing their operational reliability. In particular, in chip-in-board packages, in which chips and passives are embedded in the substrates for efficient device layout, heat dissipation is of greater importance. In this study, a thermal model for layers of different materials has been proposed, and then, the heat transfer has been simulated by imposing a set of appropriate boundary conditions. Heat generation can be predicted based on the results, which will be utilized as practical data for actual package design.

Original language	English
Pages (from-to)	75-79
Number of pages	5
Journal	Transactions of the Korean Society of Mechanical Engineers, B
Volume	37
Issue number	1
DOIs	https://doi.org/10.3795/KSME-B.2013.37.1.075
State	Published - 2014

Keywords

Chip
Heat conduction
Numerical simulation

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10.3795/KSME-B.2013.37.1.075

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title = "Numerical simulation of heat transfer in chip-in-board package",

abstract = "Demands for semiconductor devices are dramatically increasing, and advancements in fabrication technology are allowing a step-up in the number of devices per unit area. As a result, semiconductor devices require higher heat dissipation, and thus, cooling solutions have become important for guaranteeing their operational reliability. In particular, in chip-in-board packages, in which chips and passives are embedded in the substrates for efficient device layout, heat dissipation is of greater importance. In this study, a thermal model for layers of different materials has been proposed, and then, the heat transfer has been simulated by imposing a set of appropriate boundary conditions. Heat generation can be predicted based on the results, which will be utilized as practical data for actual package design.",

keywords = "Chip, Heat conduction, Numerical simulation",

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AU - Park, Joon Hyoung

AU - Shim, Hee Soo

AU - Kim, Sun Kyoung

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N2 - Demands for semiconductor devices are dramatically increasing, and advancements in fabrication technology are allowing a step-up in the number of devices per unit area. As a result, semiconductor devices require higher heat dissipation, and thus, cooling solutions have become important for guaranteeing their operational reliability. In particular, in chip-in-board packages, in which chips and passives are embedded in the substrates for efficient device layout, heat dissipation is of greater importance. In this study, a thermal model for layers of different materials has been proposed, and then, the heat transfer has been simulated by imposing a set of appropriate boundary conditions. Heat generation can be predicted based on the results, which will be utilized as practical data for actual package design.

AB - Demands for semiconductor devices are dramatically increasing, and advancements in fabrication technology are allowing a step-up in the number of devices per unit area. As a result, semiconductor devices require higher heat dissipation, and thus, cooling solutions have become important for guaranteeing their operational reliability. In particular, in chip-in-board packages, in which chips and passives are embedded in the substrates for efficient device layout, heat dissipation is of greater importance. In this study, a thermal model for layers of different materials has been proposed, and then, the heat transfer has been simulated by imposing a set of appropriate boundary conditions. Heat generation can be predicted based on the results, which will be utilized as practical data for actual package design.

KW - Chip

KW - Heat conduction

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JO - Transactions of the Korean Society of Mechanical Engineers, B

JF - Transactions of the Korean Society of Mechanical Engineers, B

IS - 1

ER -

Numerical simulation of heat transfer in chip-in-board package

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Keywords

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