Prospects of Thin-Film Thermoelectric Devices for Hot-Spot Cooling and On-Chip Energy Harvesting

Choday S.H.; Lundstrom M.S.; Roy K.

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Prospects of Thin-Film Thermoelectric Devices for Hot-Spot Cooling and On-Chip Energy Harvesting

机译：用于热点冷却和片上能量收集的薄膜热电器件的前景

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Advances in thin-film thermoelectric (TE) materials have created opportunities for using TE devices in high heat flux applications such as hot-spot (H-S) cooling and on-chip energy harvesting. In this paper, we compare the performance of TE modules integrated directly on the silicon die with those that are attached to the heat spreader of the chip package. We make use of the ${rm Bi}_{2}{rm Te}_{3}/{rm Sb}_{2}{rm Te}_{3}$ super lattice material to explore tradeoffs between the two integration options for H-S cooling and energy-harvesting applications. Package level finite element simulations show that on-chip energy harvesting can yield up to 30 mW of power from an H-S with a heat flux of 200 ${rm W}/{rm cm}^{2}$, or the same H-S can be cooled as much as 19$^{circ}{rm C}$ in the cooling mode. In addition, the TE module integrated on the die is shown to have a disadvantage due to the higher thermal resistance from the hot side of the module to the ambient.

机译：薄膜热电（TE）材料的发展为将TE器件用于高热通量应用（例如热点（H-S）冷却和芯片上的能量收集）创造了机会。在本文中，我们比较了直接集成在硅芯片上的TE模块的性能和与芯片封装的散热器相连的TE模块的性能。我们利用$ {rm Bi} _ {2} {rm Te} _ {3} / {rm Sb} _ {2} {rm Te} _ {3} $超晶格材料来探索两种集成之间的权衡HS冷却和能量收集应用程序的选项。封装级的有限元模拟显示，片上能量收集可以通过热通量为200 $ {rm W} / {rm cm} ^ {2} $的HS产生高达30 mW的功率，或者相同的HS可以在冷却模式下最多可冷却19 $ ^ {circ} {rm C} $。此外，由于从模块的热侧到周围环境的热阻较高，因此集成在管芯上的TE模块显示出一个缺点。

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《Components, Packaging and Manufacturing Technology, IEEE Transactions on》 |2013年第12期|2059-2067|共9页
作者
Choday S.H.; Lundstrom M.S.; Roy K.;
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Electrical and Computer Engineering Department, Purdue University, West Lafayette, IN, USA|c|;

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正文语种 eng
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关键词
Device ZT; energy harvesting; hot-spots; thermoelectric cooling; ${rm Bi}_{2}{rm Te}_{3}$"thin-film superlattice ${rm Bi}_{2}{rm Te}_{3}$;

机译：设备ZT;能量收集;热点;热电冷却;$ {rm Bi} _ {2} {rm Te} _ {3} $“薄膜超晶格$ {rm Bi} _ {2} {rm Te} _ {3} $;

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1. Control Principles and On-Chip Circuits for Active Cooling Using Integrated Superlattice-Based Thin-Film Thermoelectric Devices [J] . Alexandrov B., Sullivan O., Song W.J., Very Large Scale Integration (VLSI) Systems, IEEE Transactions on . 2014,第9期

机译：使用集成的基于超晶格的薄膜热电器件进行主动冷却的控制原理和片上电路
2. Large external ΔT and cooling power densities in thin-film Bi_2Te_3-superlattice thermoelectric cooling devices [J] . G. E. Bulman, E. Siivola, B. Shen, Applied Physics Letters . 2006,第12期

机译：薄膜Bi_2Te_3-超晶格热电冷却装置的大外部ΔT和冷却功率密度
3. On-chip cooling by superlattice-based thin-film thermoelectrics [J] . Chowdhury I, Prasher R, Lofgreen K, Nature nanotechnology . 2009,第4期

机译：基于超晶格的薄膜热电器件进行片上冷却
4. Workload dependent evaluation of thin-film thermoelectric devices for on-chip cooling and energy harvesting [C] . Choday Sri Harsha, Kon-Woo Kwon, Roy Kaushik IEEE/ACM International Conference on Computer-Aided Design . 2014

机译：用于薄膜冷却和能量收集的薄膜热电器件的工作量相关评估
5. Thin-film thermoelectric devices for on-chip cooling and energy harvesting. [D] . Choday, Sri Harsha. 2014

机译：用于片上冷却和能量收集的薄膜热电器件。
6. Flexible Organic Thermoelectric Materials and Devices for Wearable Green Energy Harvesting [O] . Yinhang Zhang, Soo-Jin Park 2019

机译：柔性绿色热电材料和可穿戴绿色能源收集装置
7. Thermoelectric Property Requirements for On-Chip Cooling of Device Transients [O] . Lakshmi Amulya Nimmagadda, Sanjiv Sinha 2020

机译：器件瞬变片上冷却的热电性能要求

Prospects of Thin-Film Thermoelectric Devices for Hot-Spot Cooling and On-Chip Energy Harvesting

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