非冷却被动红外传感器用CMOS-SOI-NEMS晶体管的自热效应

2015 IEEE International Conference on Microwaves, Communications, Antennas and Electronic Systems (COMCAS) Pub Date : 2015-11-01 DOI:10.1109/COMCAS.2015.7360489

A. Zviagintsev, I. Brouk, I. Bloom, Y. Nemirovsky

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引用次数: 5

摘要

以色列理工大学(Technion)开发了一种基于悬浮晶体管(TMOS)的新型非冷却热传感器，该传感器采用标准CMOS-SOI工艺制造，并通过后蚀刻释放。分析了饱和和亚阈值状态下TMOS传感器的瞬态自热热效应。本工作建立了一种分析分析的新方法，大大降低了TMOS传感器的自热效应。这是通过一个类似桥的电路，利用一个传感器和一个具有相似热电容和不同导热系数的参考器件来实现的。在亚阈值下工作时，自热效应显著降低。从而强调了亚阈值工作点的优点:电池操作以及减少自热。

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Self- heating effects in CMOS-SOI-NEMS transistors for uncooled passive IR sensors

Novel uncooled thermal sensor based on a suspended transistor (TMOS) made in standard CMOS-SOI process and released by post-etching, has been developed at Technion. The transient Self-heating thermal effect analysis of TMOS sensors operated either in saturation or subthreshold is presented. This work establishes an analytical analysis of a novel approach drastically reducing the self-heating thermal effect in TMOS sensors. This is achieved by a bridge-like circuit and utilizing a sensor and a reference device with similar thermal capacitance and different thermal conductivity. The self-heating effect is significantly reduced while operating in subthreshold. Thus emphasizing the advantages of the subthreshold operation point: battery operation as well as reduced self-heating.

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来源期刊

2015 IEEE International Conference on Microwaves, Communications, Antennas and Electronic Systems (COMCAS)

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