Heat transfer : thermal management of electronics
著者
書誌事項
Heat transfer : thermal management of electronics
CRC Press, c2010
大学図書館所蔵 全3件
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  奈良
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  島根
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  徳島
  香川
  愛媛
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  佐賀
  長崎
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注記
Includes bibliographical references and index
内容説明・目次
内容説明
The continuing trend toward miniaturization and high power density electronics results in a growing interdependency between different fields of engineering. In particular, thermal management has become essential to the design and manufacturing of most electronic systems.
Heat Transfer: Thermal Management of Electronics details how engineers can use intelligent thermal design to prevent heat-related failures, increase the life expectancy of the system, and reduce emitted noise, energy consumption, cost, and time to market. Appropriate thermal management can also create a significant market differentiation, compared to similar systems. Since there are more design flexibilities in the earlier stages of product design, it would be productive to keep the thermal design in mind as early as the concept and feasibility phase.
The author first provides the basic knowledge necessary to understand and solve simple electronic cooling problems. He then delves into more detail about heat transfer fundamentals to give the reader a deeper understanding of the physics of heat transfer. Next, he describes experimental and numerical techniques and tools that are used in a typical thermal design process. The book concludes with a chapter on some advanced cooling methods.
With its comprehensive coverage of thermal design, this book can help all engineers to develop the necessary expertise in thermal management of electronics and move a step closer to being a multidisciplinary engineer.
目次
Introduction. Energy, Energy Transfer, and Heat Transfer. Principle of Conservation of Energy. Heat Transfer Mechanisms. Thermal Resistance Network. Thermal Specification of Microelectronic Packages. Fins and Heat Sinks. Heat Conduction Equation. Fundamentals of Convection Heat Transfer. Forced Convection Heat Transfer: External Flows. Forced Convection Heat Transfer: Internal Flows. Natural Convection Heat Transfer. Radiation Heat Transfer. Computer Simulations and Thermal Design. Experimental Techniques and Thermal Design. Advanced Cooling Techniques.
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