Resistor Based Temperature Sensor Using Active Inductor Oscillator

2018 International Semiconductor Conference (CAS) Pub Date : 2018-10-01 DOI:10.1109/smicnd.2018.8539815
Savinescu Viorel-Stefan, Nica Ioan-Alexandru, L. Goras
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Abstract

In this communication we present a temperature sensor based on the conversion of an on chip resistor variation with temperature into the period of a harmonic oscillator built with an active inductor resonator. The nonlinearity behavior of active inductor resonator is suppressed using an automatic amplitude control (AAC) loop which in turn makes the period of oscillation linear. An inaccuracy of ±0.34°C/±0.1°C after a first/second order polynomial fitting at a conversion speed of 30µs. The resolution for this time of conversion is 0.25°C. This innovative principle can be applied to any harmonic oscillator based on gyrator active inductor resonator.
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基于电阻的有源电感振荡器温度传感器
在本通信中,我们提出了一种温度传感器,该传感器基于将片上电阻随温度变化转换为由有源电感谐振器构建的谐波振荡器的周期。采用自动幅度控制回路抑制有源电感谐振器的非线性特性,从而使振荡周期呈线性。在转换速度为30µs的一阶/二阶多项式拟合后,误差为±0.34°C/±0.1°C。此转换时间的分辨率为0.25°C。这一创新原理可应用于任何基于转子有源电感谐振器的谐振振荡器。
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2018 International Semiconductor Conference (CAS)
2018 International Semiconductor Conference (CAS)
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