液态合金电润湿对集成电路的有效冷却

Semiconductor Thermal Measurement and Management IEEE Twenty First Annual IEEE Symposium, 2005. Pub Date : 2005-03-15 DOI:10.1109/STHERM.2005.1412154

K. Mohseni

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引用次数: 39

摘要

提出了表面张力的电调制，用于驱动和泵送液态金属/合金的离散液滴，以实现集成电路的主动热管理和消除任何固体表面的热点。提出的技术是基于两个观察:(i)通过使用液态金属或合金在室温下冷却系统的传热速率可以显著提高;(ii)电润湿是一种高效、低功耗和低电压的驱动技术，用于在微观尺度上泵送液体。初步计算表明，与使用水的系统相比，使用液态金属可以使传热速率提高两个数量级以上。在极低的泵送功耗和低驱动电压(/spl sim/2 V)下，观察到超过10 cm/s的液体速度。预计数字化电润湿可以提供可行的冷却策略，以实现电子冷却的最重要目标;即最小化衬底最高温度，降低衬底温度梯度，去除衬底热点。

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Effective cooling of integrated circuits using liquid alloy electrowetting

Electrical modulation of surface tension is proposed for actuation and pumping of discrete droplets of liquid metals/alloys for active heat management of ICs and removal of hot spots on any solid surface. The proposed technique is based on two observations: (i) by using liquid metals or alloys at room temperature heat transfer rate of a cooling system can be enhanced significantly; (ii) electrowetting is an efficient, low power consumption, and low voltage actuation technique for pumping liquids at micro-scales. Preliminary calculations indicate that more than two orders of magnitude increase in heat transfer rate could be achieved by using liquid metals as compared to systems using water. Liquid velocities above 10 cm/s are observed with extremely low pumping power consumption and at low actuation voltage (/spl sim/2 V). It is expected that digitized electrowetting can offer a viable cooling strategy to achieve the most important objectives of electronic cooling; i.e. minimization of the maximum substrate temperature and reduction of the substrate temperature gradient and removing substrate hot spots.

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来源期刊

Semiconductor Thermal Measurement and Management IEEE Twenty First Annual IEEE Symposium, 2005.

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