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引用次数: 2
摘要
为了生产各种柔性MEMS传感器,我们之前开发了一种工艺,该工艺使用Cu On Polyimide (COP)衬底作为起始材料,并牺牲Cu蚀刻以在衬底上产生腔和电馈电结构[1]。在本研究中,我们首次在柔性热传感器中引入了实现高热隔离的真空腔。研究了聚对二甲苯厚度随二聚体用量的变化规律,并进行了真空腔结构制备的初步实验。这些结果表明,我们成功地在热传感器中制造了一个真空腔。为了确定真空腔热隔离对热传感器的影响,我们将其应用于流量传感器,发现通过在热传感器中引入真空腔可以将响应时间缩短到一半。
Vacuum cavity formation for high thermal isolation in flexible thermal sensor
For producing a variety of flexible MEMS sensors, we previously developed a process that uses a Cu On Polyimide (COP) substrate as a starting material and sacrificial Cu etching to produce a cavity and electrical feed-through structures on the substrate [1]. In the current study, we introduced a vacuum cavity realizing high thermal isolation in a flexible thermal sensor, for the first time. Parylene thickness as a function of the amount of dimer usage was studied, and a preliminary experiment exploring the fabrication of the vacuum cavity structure was performed. These results, demonstrate that we successfully produced a vacuum cavity in the thermal sensor. To determine the effect of the thermal isolation by vacuum cavity to thermal sensor, we applied it to a flow sensor, and found that we can reduce the response time to one-half by introducing the vacuum cavity in thermal sensor.
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