Title :
Thermal design of an ultraslim notebook computer
Author :
Kobayashi, Takashi ; Ogushi, Tetsuro ; Sumi, Noriaki ; Fujii, Masao
Author_Institution :
Design Syst. Eng. Center, Mitsubishi Electr. Corp., Kanagawa, Japan
fDate :
3/1/2000 12:00:00 AM
Abstract :
We have developed two innovative thermal solutions for ultraslim notebook personal computer (PC) where only natural convection cooling can be used for heat rejection. The first solution is a cooling system for the CPU using the bottom chassis (Mg die-cast) as a heat spreader combining with Al heat transfer plate. The size and geometry were optimized by thermal analysis using finite volume method before making the prototype. As the second solution, a new coating which can reduce the warmth of Mg (magnesium alloy) die-cast enclosure has been developed and has already reached the stage of practical use. This paper describes the outline of these thermal design technologies used for Mitsubishi ultraslim notebook PC “Pedion.” As of September 1997 “Pedion” was the world´s thinnest at 18 mm thick among A4-size notebook computers for Microsoft(R) Windows(R)
Keywords :
cooling; finite volume methods; natural convection; notebook computers; thermal analysis; thermal management (packaging); 18 mm; Al; Mitsubishi; Pedion; die-cast enclosure; finite volume method; heat rejection; heat spreader; heat transfer plate; natural convection cooling; thermal analysis; thermal design; ultraslim notebook computer; Central Processing Unit; Coatings; Cooling; Finite volume methods; Geometry; Heat transfer; Magnesium; Microcomputers; Optimization methods; Prototypes;
Journal_Title :
Components and Packaging Technologies, IEEE Transactions on
DOI :
10.1109/6144.833036
