10.14489/td.2019.11.pp.040-049

2019, 11 November

DOI: 10.14489/td.2019.11.pp.040-049

Tsybin Yu. N.
MONITORING THE AFR OF THE INFORMATION SIGNAL FILTER OF A FLUX-GATE MAGNETOMETER ON THE EXAMPLE OF A SINGLE LINK BUTTERWORTH FILTER
(pp.40-49)

Abstract. The content of this paper relates to the field of monitoring the parameters of a magnetic field (MF) meter with a MF a fluxgate sensor. The article directly discusses the control method for the amplitude frequency response (AFR) of the second harmonic filter of an EMF fluxgate meter. The purpose of the work is to minimize the workplace (WP) equipment for magnetometer monitoring. We suggest an AFR monitoring method based on three readings. As an input signal source, while monitoring an AFR filter, we suggest the use of a WP fluxgate meter. The fluxgate meter is installed in a magnetic screen. The method consists in generating the filter input signal using the magnetometer. The essence of the suggested method is to analyze the AFR symmetry. As the base filter, we use a second-order Butterworth filter with a narrowband symmetric AFR. The effect of the electrical element filter ratings is systematized in the form of a correspondence table: an electric element – an AFR parameter. We present the AFR sufficiency control analysis in terms of its symmetry. The AFR monitoring, in terms of its symmetry, has been supplemented with the Kр(f0) monitoring using the personal computer. We demonstrate the peculiarities of using a fluxgate meter as an input signal source. We derived the ratio of the magnetometer electronic part parameters that affect the accuracy (discreteness) of the filter’s input signal generation. We present an algorithm with a description of the magnetometer operation in the AFR monitoring mode.

Keywords: AFR monitoring, magnetometer monitoring, magnetometer filter, filter AFR.

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Yu. N. Tsybin (Research Institute of Control Devices JSC, Saint Petersburg, Russia) E-mail: Данный адрес e-mail защищен от спам-ботов, Вам необходимо включить Javascript для его просмотра.

+ - References Click to collapse

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4. Vlaskin K. (2014). Development of electromagnetic systems of small-sized primary transducers of a fluxgate type. Izhevskiy gosudarstvenniy tekhnicheskiy universitet im. M. T. Kalashnikova. Izhevsk. Available at: http://www.udman.ru/iam/files/defenses/dissertaciya_vlaskina_k.i.pdf [in Russian language]
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