Development of a New Fabrication Method of Thermoelectric Microgenerators

M. Gierczak, P. Markowski, A. Dziedzic
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引用次数: 1

Abstract

Hybrid thermoelectric microgenerators, which are based on magnetron sputtered constantan (alloy of copper and nickel)and screen-printed silver, deposited on alumina substrate, were manufactured and characterized in previous research [1]. This paper describes new fabrication method of mixed microgenerators on LTCC substrates. Thermopiles consist of sixteen thermocouples, in which one arms were made from magnetron sputtered constantan and the remaining arms - as screen-printed Ag-based film. Single thermocouple arm was 27 mm long, and 0.3 mm wide. The distance between arms was equal to 0.3 mm. Microgenerators were performed on 34×28×O.2 mm3 substrates. Firstly, the substrates were prepared, then the constantan layer was deposited by magnetron sputtering on the whole substrates in a vacuum. Next, the photolithography was carried out using the previously prepared photomask. The etching process in the appropriate solution exposed the first thermocouples arms. The low-temperature silver ink was screen-printed onto the LTCC substrate and then fired in a nitrogen atmosphere in order to create the second arms of the thermopile. Thermoelectric and electric parameters of such structures were characterized in detail.
热电微型发电机制造新方法的发展
基于磁控溅射康士坦(铜镍合金)和丝网印刷银,沉积在氧化铝衬底上的混合热电微型发电机已在先前的研究中制造并表征[1]。本文介绍了在LTCC基板上制备混合微发电机的新方法。热电堆由16个热电偶组成,其中一个臂由磁控溅射康士坦制成,其余臂由丝网印刷银基薄膜制成。单个热电偶臂长27mm,宽0.3 mm。臂间距离为0.3 mm。微发电机在34×28×O上进行。2 mm3衬底。首先制备衬底,然后在真空条件下通过磁控溅射在整个衬底上沉积康铜层。接下来,使用先前制备的光掩膜进行光刻。在适当的溶液中蚀刻过程暴露了第一热电偶臂。低温银油墨被丝网印刷到LTCC衬底上,然后在氮气气氛中烧制,以制造热电堆的第二臂。详细表征了这种结构的热电参数和电参数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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