Toward A Thermal Figure Of Merit For Multi-Chip Packages Bruce M. Guenin, Ph.D., Associate Editor Introduction Last issue's Calculation Corner dealt with methods for predicting the temperature of each chip in a Multi-Chip Package (MCP) at an arbitrary combination of chip power levels using the principle of superposition [1]. One of the main points of that article was that both … [Read more...]
So Many Chips, So Little Time; Device Temperature Prediction in Multi-Chip Packages
Introduction The same trend that has led to ever-higher levels of integration of computation and processing functions on a single chip is now driving the integration of several chips into the same package. The use of multi-chip packages (MCPs) enables miniaturization of a circuit when it is not practical to incorporate all of the desired functionality on a single chip. The … [Read more...]
Packaging Challenges For High Heat Flux Devices
Introduction It comes as no surprise to anyone in our industry that device power levels are increasing to support customer expectations of ever greater functionality and performance. The greatest thermal challenges in computing occur in the packaging of processors. This results not only from the fact that processors typically have the largest overall power dissipation in a … [Read more...]
A Funny Thing Happened On The Way To The Heatsink
Introduction When faced with the task of calculating the temperature of an IC in a package, which has an external heat sink mounted to it, a thermal engineer usually obtains a values of three thermal resistances: ΘJC , the junction-to-case thermal resistance for the package, ΘCS , the case-to-sink thermal resistance representing the thermal interface material (TIM) between the … [Read more...]
Entrance Effects For Heat Flow Into A Multi-Layer Printed Circuit Board
Introduction Since their introduction, multilayer printed circuit boards have provided a significant benefit to the thermal management of IC packages. As is widely recognized, the power and ground planes in these boards function as fins and spread the heat beyond the package footprint and enhance heat transfer to the air. Heat can flow into these planes by conduction either … [Read more...]
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