Analytical modeling of multi-layered printed circuit board using multi-stacked via clusters as component heat spreader
In order to help the electronic designer to early determine the limits of the power dissipation of electronic component, an analytical model was established to allow a fast insight of relevant design parameters of a multi-layered electronic board constitution. The proposed steady-state a...
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VINCA Institute of Nuclear Sciences
2016-01-01
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| Series: | Thermal Science |
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| Online Access: | http://www.doiserbia.nb.rs/img/doi/0354-9836/2016/0354-98361400143M.pdf |
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doaj-07fc8516346f4c74bd35093014c7d4722021-01-02T00:52:54ZengVINCA Institute of Nuclear SciencesThermal Science0354-98362334-71632016-01-012051633164710.2298/TSCI140403143M0354-98361400143MAnalytical modeling of multi-layered printed circuit board using multi-stacked via clusters as component heat spreaderMonier-Vinard Eric0Laraqi Najib1Dia Cheikh Tidiane2Nguyen Minh-Nhat3Bissuel Valentin4Thales Global Services, Meudon la foret Cedex, FranceLaboratoire Thermique Interfaces Environnement (LTIE), Ville d’Avray, FranceThales Global Services, Meudon la foret Cedex, France + Laboratoire Thermique Interfaces Environnement (LTIE), Ville d’Avray, FranceLaboratoire Thermique Interfaces Environnement (LTIE), Ville d’Avray, FranceThales Global Services, Meudon la foret Cedex, FranceIn order to help the electronic designer to early determine the limits of the power dissipation of electronic component, an analytical model was established to allow a fast insight of relevant design parameters of a multi-layered electronic board constitution. The proposed steady-state approach based on Fourier series method promotes a practical solution to quickly investigate the potential gain of multi-layered thermal via clusters. Generally, it has been shown a good agreement between the results obtained by the proposed analytical model and those given by electronics cooling software widely used in industry. Some results highlight the fact that the conventional practices for Printed Circuit Board modeling can be dramatically underestimate source temperatures, in particular with smaller sources. Moreover, the analytic solution could be applied to optimize the heat spreading in the board structure with a local modification of the effective thermal conductivity layers.http://www.doiserbia.nb.rs/img/doi/0354-9836/2016/0354-98361400143M.pdfanalytical PCB modelingeffective thermal conductivitycopper via impact |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Monier-Vinard Eric Laraqi Najib Dia Cheikh Tidiane Nguyen Minh-Nhat Bissuel Valentin |
| spellingShingle |
Monier-Vinard Eric Laraqi Najib Dia Cheikh Tidiane Nguyen Minh-Nhat Bissuel Valentin Analytical modeling of multi-layered printed circuit board using multi-stacked via clusters as component heat spreader Thermal Science analytical PCB modeling effective thermal conductivity copper via impact |
| author_facet |
Monier-Vinard Eric Laraqi Najib Dia Cheikh Tidiane Nguyen Minh-Nhat Bissuel Valentin |
| author_sort |
Monier-Vinard Eric |
| title |
Analytical modeling of multi-layered printed circuit board using multi-stacked via clusters as component heat spreader |
| title_short |
Analytical modeling of multi-layered printed circuit board using multi-stacked via clusters as component heat spreader |
| title_full |
Analytical modeling of multi-layered printed circuit board using multi-stacked via clusters as component heat spreader |
| title_fullStr |
Analytical modeling of multi-layered printed circuit board using multi-stacked via clusters as component heat spreader |
| title_full_unstemmed |
Analytical modeling of multi-layered printed circuit board using multi-stacked via clusters as component heat spreader |
| title_sort |
analytical modeling of multi-layered printed circuit board using multi-stacked via clusters as component heat spreader |
| publisher |
VINCA Institute of Nuclear Sciences |
| series |
Thermal Science |
| issn |
0354-9836 2334-7163 |
| publishDate |
2016-01-01 |
| description |
In order to help the electronic designer to early determine the limits of the
power dissipation of electronic component, an analytical model was
established to allow a fast insight of relevant design parameters of a
multi-layered electronic board constitution. The proposed steady-state
approach based on Fourier series method promotes a practical solution to
quickly investigate the potential gain of multi-layered thermal via clusters.
Generally, it has been shown a good agreement between the results obtained by
the proposed analytical model and those given by electronics cooling software
widely used in industry. Some results highlight the fact that the
conventional practices for Printed Circuit Board modeling can be dramatically
underestimate source temperatures, in particular with smaller sources.
Moreover, the analytic solution could be applied to optimize the heat
spreading in the board structure with a local modification of the effective
thermal conductivity layers. |
| topic |
analytical PCB modeling effective thermal conductivity copper via impact |
| url |
http://www.doiserbia.nb.rs/img/doi/0354-9836/2016/0354-98361400143M.pdf |
| work_keys_str_mv |
AT moniervinarderic analyticalmodelingofmultilayeredprintedcircuitboardusingmultistackedviaclustersascomponentheatspreader AT laraqinajib analyticalmodelingofmultilayeredprintedcircuitboardusingmultistackedviaclustersascomponentheatspreader AT diacheikhtidiane analyticalmodelingofmultilayeredprintedcircuitboardusingmultistackedviaclustersascomponentheatspreader AT nguyenminhnhat analyticalmodelingofmultilayeredprintedcircuitboardusingmultistackedviaclustersascomponentheatspreader AT bissuelvalentin analyticalmodelingofmultilayeredprintedcircuitboardusingmultistackedviaclustersascomponentheatspreader |
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