Theoretical studies of multi-electrode sensor of components of electric field intensity vector in form of square plate of conductive material

Theoretical studies of multi-electrode sensor of components of electric field intensity vector in form of square plate of conductive material

The article examines a multi-element flat sensor of the components of the intensity vector of a low-frequency electric field manufactured using new technologies and capable of being integrated into modern gadgets. The sensor is suitable for measuring the intensity of electric fields adversely af...

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Bibliographic Details
Main Authors: S. V. Biryukov, A. V. Tyukin
Format: Article
Language:English
Published: Omsk State Technical University, Federal State Autonoumos Educational Institution of Higher Education 2019-06-01
Series:Омский научный вестник
Subjects:
multi-element flat sensor of the components of the electric field strength vector
uniform field
point electric charge
electric field intensity
sensitive element
error due to field heterogeneity
spatial measurement range
electrometric measurements
Online Access:https://www.omgtu.ru/general_information/media_omgtu/journal_of_omsk_research_journal/files/arhiv/2019/3%20(165)/46-53%20%D0%91%D0%B8%D1%80%D1%8E%D0%BA%D0%BE%D0%B2%20%D0%A1.%20%D0%92.,%20%D0%A2%D1%8E%D0%BA%D0%B8%D0%BD%20%D0%90.%20%D0%92..pdf
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Summary:The article examines a multi-element flat sensor of the components of the intensity vector of a low-frequency electric field manufactured using new technologies and capable of being integrated into modern gadgets. The sensor is suitable for measuring the intensity of electric fields adversely affecting a person. In this regard, the problem solved in the article is relevant. The research results allowed to create such a sensor evaluate its metrological characteristics and establish their dependence on the degree of homogeneity of the electric field. The established interrelation between the sensor error and the degree of heterogeneity of the electric field allows determining the spatial measurement range by a given error or by setting a sensor for a given spatial measurement range. For example, a 2 % sensor error corresponds to the spatial measurement range a determined by the distance from the field source from 0 M to 7 M (a = 0,15), where M is the linear size of the sensor.
ISSN:1813-8225
2541-7541

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