基于共振隧道二极管的频率输出纳米电子压力传感器

2020 IEEE 15th International Conference on Advanced Trends in Radioelectronics, Telecommunications and Computer Engineering (TCSET) Pub Date : 2020-02-01 DOI:10.1109/TCSET49122.2020.235474

I. Osadchuk, A. Osadchuk, V. Osadchuk, A. Semenov

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引用次数: 1

摘要

该报告显示了制造基于隧道谐振二极管的频率输出的纳米电子换能器的可能性。纳米电子压力传感器的电路由一个恒压源和一个由两个双极晶体管、三个电阻、电感和电容组成的电路组成。该电路实现了一个自振荡器，其频率取决于压力的作用。在压力作用下，隧道谐振二极管的电压发生变化，导致振荡器振荡系统的负差分电阻发生变化，进而改变振荡器的输出频率。实验研究表明，该传感器的灵敏度为0.25-2.25 kHz/kPa。对电路的工作进行了数学分析。

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Nanoelectronic Pressure Transducer with a Frequency Output Based on a Resonance Tunnel Diode

The report shows the possibility of creating a nanoelectronic transducer with a frequency output based on a tunnel resonance diode. The electrical circuit of the nanoelectronic pressure transducer consists of a constant voltage source that feeds the tunnel resonance diode and a circuit of two bipolar transistors, three resistors, inductance and capacitance. The circuit implements a self-oscillator whose frequency depends on the action of pressure. Under the action of pressure on the tunnel resonance diode its voltage changes, that leads to a change in negative differential resistance in the oscillatory system of the oscillator, which in turn changes the output frequency of the oscillator. As shown by experimental studies, the sensitivity of the transducer was 0.25-2.25 kHz/kPa. A mathematical analysis of the operation of the circuit is carried out.

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来源期刊

2020 IEEE 15th International Conference on Advanced Trends in Radioelectronics, Telecommunications and Computer Engineering (TCSET)

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