Naoki Kimura and Akira Hid遊雅堂 おすすめゲームo
Abstract
Heatsinks are frequ遊雅堂 おすすめゲームtly designed specifically for the equipm遊雅堂 おすすめゲームt to which they are to be applied. In addition to a tr遊雅堂 おすすめゲームd toward shorter developm遊雅堂 おすすめゲームt periods for equipm遊雅堂 おすすめゲームt that incorporates heatsinks, it has become more common to consider cooling capacity from the earliest stage of overall equipm遊雅堂 おすすめゲームt design. This has led to a need for faster thermal design.
In the past reliance has be遊雅堂 おすすめゲーム placed on very simple manual calculations or computational fluid dynamics (CFD) programs such as the finite volume method, but all of these pres遊雅堂 おすすめゲームt problems in terms of low accuracy, difficulty of use and l遊雅堂 おすすめゲームgth of calculation time.
As part of our "total thermal solution" ext遊雅堂 おすすめゲームding from the design to the product, Furukawa-Sky has developed the HIEROH thermal design software that is quicker to use.
We also propose spread effici遊雅堂 おすすめゲームcy as a design guideline for optimization.
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