A composite material can be defined as a material in which two or more different materials are bonded together. It is sensible to make a distinction between macrocomposites and microcomposites. The first group usually has a layered structure, and PCBs are the main application. The second group looks uniform to the naked eye; materials from this group are often used for packages … [Read more...]
Thermal analysis moves into the 21st century
In the last decade, we've come a long way in the application of thermal analysis to the design of electronics. And there's no sign of the pace of innovation changing. Engineers are still being challenged to build faster, smaller and cheaper products in ever-decreasing design times. Fortunately, the engineering software industry has been able to respond by providing tools that … [Read more...]
Computer-related thermal packaging at the millenial divide
Examples of state-of-the-art thermal management solutions at the dawn of the 21st century (left to right): a TCM module, a high-density heat sink, and an ultra performance, low profile fan-sink. Thermal management has served as a key enabling technology in the development of advanced microelectronic systems and has facilitated many of the "Moore's Law" [Moore, G.E., 1975] … [Read more...]
Determining the junction temperature in a plastic semiconductor package, part II
In the majority of applications involving plastic surface-mount packages, most of the heat generated by integrated circuits will flow to the printed circuit board (PCB) by way of the package leads and then to In higher-power applications it is often necessary to attach a heat sink to the top of the package to keep the junction temperature of the chip within specified limits. … [Read more...]
High performance thermal management materials
Various new advanced composite materials are now available, which provide great advantages over conventional materials for electronic packaging thermal control, including: Extremely high thermal conductivities (up to twice that of copper) Low, tailorable coefficients of thermal expansion Extremely high strength and stiffness Low densities Low cost, net shape fabrication … [Read more...]
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