Numerical and experimental study of free convection on wire-bonded QFN64b electronic package
Autor: | Abderrezak Hamouda, O. Haddad, Ali Hocine, Nacim Alilat, Abderrahmane Baïri |
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Rok vydání: | 2017 |
Předmět: |
Natural convection
Materials science Temperature control 020209 energy Applied Mathematics Mechanical Engineering Mechanical engineering 02 engineering and technology Computer Science Applications Printed circuit board Mechanics of Materials Thermal radiation Thermal 0202 electrical engineering electronic engineering information engineering Electrical measurements Electronics Quad Flat No-leads package |
Zdroj: | International Journal of Numerical Methods for Heat & Fluid Flow. 27:1323-1331 |
ISSN: | 0961-5539 |
DOI: | 10.1108/hff-07-2016-0262 |
Popis: | Purpose The wire-bonded version of the quad flat non-lead with 64 leads (QFN64b) is increasingly integrated in modern arrangements, given its thermal and electrical characteristics suited for specific applications. Temperature control is thus essential for its proper operation, particularly when the heat exchange with the environment is done by natural convection. This work aims to consider a conventional assembly consisting of a large printed circuit board (PCB) on which is welded a QFN64b generating a power in the range 0.01-0.1 W. The PCB could be inclined at an angle varying between 0° and 90° (horizontal and vertical positions, respectively) according to the intended application. Design/methodology/approach The 3D numerical approach done by means of the finite volume method is complemented by thermal and electrical measurements for all the configurations numerically processed. The low deviations obtained between the calculations and the measurements validate the adopted model. These results complement recent work that considers the same assembly equipped with a tilted and low-powered QFN64 basic model subjected to free convection. Findings The surface temperature in any part of the assembly has been determined. The influence of the power generated by the device and the PCB’s inclination angle relative to the gravity field have been quantified. The work shows that the radiative heat transfer is negligible given the temperatures reached and that the thermal state of the considered assembly is different from the one equipped with the QFN64 basic model. The QFN’s temperature is lowered, while that of the PCB is increased. The temperature distribution is also different from that of assemblies equipped with other QFN models with and without wire-bonding. Originality/value The correlations proposed in this survey help optimize the thermal design of the QFN64b electronic package used in many engineering fields. |
Databáze: | OpenAIRE |
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