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首页> 外文期刊>Sensors Journal, IEEE >Structural Design for Dimensional Stability of Thermocouples in Thermoelectric Energy Harvester
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Structural Design for Dimensional Stability of Thermocouples in Thermoelectric Energy Harvester

机译:热电能量收集器中热电偶尺寸稳定性的结构设计

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摘要

The design of thermoelectric energy harvester in hybrid configuration by CMOS process has been known desirable. Thermal isolation cavity on the top and/or bottom of a thermocouple to increase its thermal resistance is necessary to achieve better harvester performance. However, the thermocouple becomes suspended and may suffer from poor dimension stability on wearable device applications. This paper aims at improving the dimension stability of thermoelectric energy harvester by a structural support design. A harvester with a thermal isolation cavity of 10$mu ext{m}$in depth and a structural support of 4$mu ext{m}$in length is developed to minimize heat leakage and to provide the dimension stability of thermocouples. Compared with many previous works, the harvester design implemented by BiCMOS standard process (TSMC 0.18-$mu ext{m}$SiGe 3P6M) is shown to achieve a superior power factor of 0.125$mu ext{W}$/cm2K2and a voltage factor of 23.53 V/cm2K.
机译:已知期望通过CMOS工艺以混合配置设计热电能量收集器。为了获得更好的收割机性能,必须在热电偶顶部和/或底部的隔热腔以增加其热阻。但是,热电偶会悬吊起来,在可穿戴设备应用中可能会出现尺寸稳定性差的问题。本文旨在通过结构支撑设计来提高热电能量收集器的尺寸稳定性。具有10 n $ mu text {m} $ n深度和一个4 n $ mu text {m} $ n长度的开发是为了最大程度地减少热泄漏和提供热电偶的尺寸稳定性。与以前的许多工作相比,采用BiCMOS标准流程(TSMC 0.18- n $ mu text {m} $ nSiGe 3P6M)显示出的功率因数达到0.125 n <内联公式xmlns:mml = “ http://www.w3.org/1998/Math/MathML ” xmlns:xlink = “ http://www.w3.org/1999/xlink ”> $ mu text {W} $ n / cm n 2 nK n 2,电压因子为23.53 V / cm n 2 nK。

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