霍尔式磁性液体微压差传感器的设计及特性研究*
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中图分类号TH1132 A文献标识码国家标准学科分类代码: 46040

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*基金项目:基金项目中央高校基本科研业务费人才基金(2019RC036)项目资助


Design and characteristic research on the magnetic fluid micropressure difference sensor based on Hall elements
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    摘要:

    摘要:摘要磁性液体作为一种重要的功能材料,在传感器领域的应用日渐广泛。本文基于霍尔元件设计了一种霍尔式磁性液体微压差传感器,该传感器以透明玻璃管为载体,内部圆柱状永久磁铁的端部吸附有磁性液体,磁性液体形成环状起到润滑和密封的作用,使得永久磁铁在竖直方向运动时的摩擦发生在固体和液体之间,底部磁环用来提供回复力,转换元件采用霍尔元件。当永久磁铁在透明玻璃管内移动时,霍尔元件处的磁场发生变化,进而系统输出电压信号。最终优化后的传感器直径10mm,长度80 mm,当采用3mm磁环和50mm永久磁铁组合时,在0~100 Pa的测量范围内,测量精度为1 Pa,线性度误差58%,迟滞误差53%,重复性误差29%,该传感器体积小、成本低,具有很强的实用价值。

    Abstract:

    Abstract:As an important functional material, magnetic fluid has been widely used in the sensor field. An innovative magnetic fluid micropressure difference sensor is designed based on Hall elements in this study. Magnetic fluid is absorbed at the end of the cylindrical permanent magnet placedin the middle of transparentglass tube. In thisway, circular rings are formed,whichcanbeused to lubricate, sealandmake thefrictionhappenbetweensolidandliquid.Theringpermanentmagnet fixed onthe bottomofthe transparentglasstube isutilized to provide restoring force. When the permanent moves in the tube, the magnetic field of the Hall elements that acts as a transformation component will change with the displacements. Then, the voltage signals of the system are output. Finally, the optimized sensor has a diameter of 10 mm and a length of 80 mm. When it is combined with a 3 mm magnetic ring and a 50 mm permanent magnet, the measurement accuracy is 1 Pa within the measurement range of 0~1 000 Pa. The linearity error is 58%, the hysteresis error is 53%, and the repeatability error is 29%. The sensor is small in size and low in cost, which shows a strong practical value.

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谢君,李德才,朱锐棋.霍尔式磁性液体微压差传感器的设计及特性研究*[J].仪器仪表学报,2020,41(6):27-34

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  • 在线发布日期: 2022-03-01
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