A Zero Offset Reduction Method for RTD-based Thermal Flow Sensors

Jun Long, Yong Li, Xuhui Liu
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引用次数: 1

Abstract

Zero offset, which is caused by unavoidable asymmetrical structures of thermal flow sensors, commonly reduces the practical performance of thermal flow sensors. In this work, a zero offset reduction method for thermal flow sensors based on resistive temperature detectors (RTD) is proposed. A micro-machined thermal flow sensor consists of four thick-film resistors is adopted in this work. Among these four resistors, two of them are acted as heaters placed between the other pair of RTDs. An unbalanced heater driving strategy is adopted to cancel the zero offset and a new measurement model is proposed for mass flow rate measurement. Experimental results show that the zero offset has been significantly reduced and the mass flow rate measurement error is less than ±1% F.S. (Full Scale) within the range of 0 mg/s to 0.1 mg/s.
基于rtd的热流传感器零偏移减小方法
由于热流传感器结构的不对称不可避免地会导致零偏移,这通常会降低热流传感器的实际性能。本文提出了一种基于电阻式温度检测器(RTD)的热流传感器零偏减小方法。本文采用了一种由四个厚膜电阻组成的微机械热流传感器。在这四个电阻中,其中两个作为加热器放置在另一对rtd之间。采用不平衡加热器驱动策略消除零偏移,提出了一种新的质量流量测量模型。实验结果表明,在0 mg/s ~ 0.1 mg/s范围内,质量流量测量误差小于±1% F.S.(满量程)。
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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