Circular Array of Magnetic Sensors for Current Measurement: Analysis for Error Caused by Position of Conductor

This paper analyzes the measurement error, caused by the position of the current-carrying conductor, of a circular array of magnetic sensors for current measurement. The circular array of magnetic sensors is an effective approach for AC or DC non-contact measurement, as it is low-cost, light-weight,...

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Published inSensors (Basel, Switzerland) Vol. 18; no. 2; p. 578
Main Authors Yu, Hao, Qian, Zheng, Liu, Huayi, Qu, Jiaqi
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 14.02.2018
MDPI
Subjects
circular array
current measurement
Mathematical models
Sensors
tunnel magnetoresistance sensors
un-center
un-perpendicular
current measurement
un-perpendicular
un-center
circular array
tunnel magnetoresistance sensors
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Abstract This paper analyzes the measurement error, caused by the position of the current-carrying conductor, of a circular array of magnetic sensors for current measurement. The circular array of magnetic sensors is an effective approach for AC or DC non-contact measurement, as it is low-cost, light-weight, has a large linear range, wide bandwidth, and low noise. Especially, it has been claimed that such structure has excellent reduction ability for errors caused by the position of the current-carrying conductor, crosstalk current interference, shape of the conduction cross-section, and the Earth’s magnetic field. However, the positions of the current-carrying conductor—including un-centeredness and un-perpendicularity—have not been analyzed in detail until now. In this paper, for the purpose of having minimum measurement error, a theoretical analysis has been proposed based on vector inner and exterior product. In the presented mathematical model of relative error, the un-center offset distance, the un-perpendicular angle, the radius of the circle, and the number of magnetic sensors are expressed in one equation. The comparison of the relative error caused by the position of the current-carrying conductor between four and eight sensors is conducted. Tunnel magnetoresistance (TMR) sensors are used in the experimental prototype to verify the mathematical model. The analysis results can be the reference to design the details of the circular array of magnetic sensors for current measurement in practical situations.
AbstractList This paper analyzes the measurement error, caused by the position of the current-carrying conductor, of a circular array of magnetic sensors for current measurement. The circular array of magnetic sensors is an effective approach for AC or DC non-contact measurement, as it is low-cost, light-weight, has a large linear range, wide bandwidth, and low noise. Especially, it has been claimed that such structure has excellent reduction ability for errors caused by the position of the current-carrying conductor, crosstalk current interference, shape of the conduction cross-section, and the Earth’s magnetic field. However, the positions of the current-carrying conductor—including un-centeredness and un-perpendicularity—have not been analyzed in detail until now. In this paper, for the purpose of having minimum measurement error, a theoretical analysis has been proposed based on vector inner and exterior product. In the presented mathematical model of relative error, the un-center offset distance, the un-perpendicular angle, the radius of the circle, and the number of magnetic sensors are expressed in one equation. The comparison of the relative error caused by the position of the current-carrying conductor between four and eight sensors is conducted. Tunnel magnetoresistance (TMR) sensors are used in the experimental prototype to verify the mathematical model. The analysis results can be the reference to design the details of the circular array of magnetic sensors for current measurement in practical situations.
This paper analyzes the measurement error, caused by the position of the current-carrying conductor, of a circular array of magnetic sensors for current measurement. The circular array of magnetic sensors is an effective approach for AC or DC non-contact measurement, as it is low-cost, light-weight, has a large linear range, wide bandwidth, and low noise. Especially, it has been claimed that such structure has excellent reduction ability for errors caused by the position of the current-carrying conductor, crosstalk current interference, shape of the conduction cross-section, and the Earth's magnetic field. However, the positions of the current-carrying conductor-including un-centeredness and un-perpendicularity-have not been analyzed in detail until now. In this paper, for the purpose of having minimum measurement error, a theoretical analysis has been proposed based on vector inner and exterior product. In the presented mathematical model of relative error, the un-center offset distance, the un-perpendicular angle, the radius of the circle, and the number of magnetic sensors are expressed in one equation. The comparison of the relative error caused by the position of the current-carrying conductor between four and eight sensors is conducted. Tunnel magnetoresistance (TMR) sensors are used in the experimental prototype to verify the mathematical model. The analysis results can be the reference to design the details of the circular array of magnetic sensors for current measurement in practical situations.This paper analyzes the measurement error, caused by the position of the current-carrying conductor, of a circular array of magnetic sensors for current measurement. The circular array of magnetic sensors is an effective approach for AC or DC non-contact measurement, as it is low-cost, light-weight, has a large linear range, wide bandwidth, and low noise. Especially, it has been claimed that such structure has excellent reduction ability for errors caused by the position of the current-carrying conductor, crosstalk current interference, shape of the conduction cross-section, and the Earth's magnetic field. However, the positions of the current-carrying conductor-including un-centeredness and un-perpendicularity-have not been analyzed in detail until now. In this paper, for the purpose of having minimum measurement error, a theoretical analysis has been proposed based on vector inner and exterior product. In the presented mathematical model of relative error, the un-center offset distance, the un-perpendicular angle, the radius of the circle, and the number of magnetic sensors are expressed in one equation. The comparison of the relative error caused by the position of the current-carrying conductor between four and eight sensors is conducted. Tunnel magnetoresistance (TMR) sensors are used in the experimental prototype to verify the mathematical model. The analysis results can be the reference to design the details of the circular array of magnetic sensors for current measurement in practical situations.
Author Qian, Zheng
Qu, Jiaqi
Yu, Hao
Liu, Huayi
AuthorAffiliation School of Instrumentation Science and Opto-Electronics Engineering, Beihang University, Beijing 100191, China; yuhaoby@buaa.edu.cn (H.Y.); liuhy_one@163.com (H.L.); qujiaqi@buaa.edu.cn (J.Q.)
AuthorAffiliation_xml – name: School of Instrumentation Science and Opto-Electronics Engineering, Beihang University, Beijing 100191, China; yuhaoby@buaa.edu.cn (H.Y.); liuhy_one@163.com (H.L.); qujiaqi@buaa.edu.cn (J.Q.)
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un-perpendicular
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circular array
tunnel magnetoresistance sensors
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Snippet This paper analyzes the measurement error, caused by the position of the current-carrying conductor, of a circular array of magnetic sensors for current...
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SubjectTerms circular array
current measurement
Mathematical models
Sensors
tunnel magnetoresistance sensors
un-center
un-perpendicular
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Title Circular Array of Magnetic Sensors for Current Measurement: Analysis for Error Caused by Position of Conductor
URI https://www.ncbi.nlm.nih.gov/pubmed/29443868
https://www.proquest.com/docview/2110102629
https://www.proquest.com/docview/2002485449
https://pubmed.ncbi.nlm.nih.gov/PMC5856180
https://doaj.org/article/d0c38feb09744ddfa7ac5020645e90ec
Volume 18
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