Introduction As most readers of ElectronicsCooling magazine are no doubt aware, fins may be added to a heat transfer surface to increase the effective heat transfer area and thereby reduce the base surface temperature for a given heat load and heat transfer coefficient. The formula to estimate the heat dissipation capability, qf, of a straight fin is given by, and Af is … [Read more...]
Integrated Heat Pipe Spreader for Improved FBDIMM Memory Module Thermal Management
Introduction Due to the increasing power density in today's industry standard servers, thermal design and cooling is a significant challenge. In a typical server, the two most challenging elements to cool are the processors and the memory modules. The system level fan speeds are directly dictated (in most cases) by both processor and memory temperatures. Due to the fact that … [Read more...]
Design For Manufacturability Of Forced Convection Air Cooled Fully Ducted Heat Sinks
Introduction The requisite thermal management for a microprocessor is most often achieved via an aluminum heat sink (fin structure) and a small fan. The effort discussed herein deals with the development of a 'design for manufacturability' methodology for forced convection cooled, plate fin arrays used to form high performance heat sinks for electronics cooling applications. In … [Read more...]
Using an Equivalent Heat Transfer Coefficient to Model Fins on a Fin
Many readers of ElectronicsCooling are probably familiar with the use of fin efficiency formulas to estimate the thermal resistance of the commonly used parallel plate fin heat sink. Given the heat transfer coefficient, h, acting on a fin and the dimensions of the fin, the thermal resistance of an individual fin is given by: where Af and η are the surface area and … [Read more...]
Metal Injection Molding Of Heat Sinks
Introduction New thermal management solutions are needed to provide cost-effective means of dissipating heat from future generation microelectronic devices. A relatively new process to reduce the costs of fabricating large quantities of complex components, such as heat sinks, is metal injection molding (MIM), a net-shaping process in which metal powder is mixed with a … [Read more...]
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