Analisis Dan Perancangan Penentuan Kuat Kutub Medan Magnet Berdasarkan Nilai Jarak Berbasis Internet Of Things

M., Bilal (2024) Analisis Dan Perancangan Penentuan Kuat Kutub Medan Magnet Berdasarkan Nilai Jarak Berbasis Internet Of Things. Undergraduate Thesis thesis, Institut Teknologi Telkom Purwokerto.

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Abstract

At this time there almost all magnetic field measurement systems use sensors as the main component, but the price of measuring instruments on the market tends to be relatively expensive. Nowadays magnets are widely used in various fields such as automotive, industry, household, health, science and technology, and various other fields. Therefore, research was made to make a tool to measure the polar strength of the magnetic field which was carried out by utilizing magnetic sensors that are easily found on the market, magnetic sensors offer various advantages, including linearity and stability in measurement, high sensitivity, and non-destructive properties that are not destructive. In this study, the author wants to design a tool to measure the polar strength of the magnetic field, the use of a magnetic sensor can be an effective solution. devices specifically designed for measuring and detecting magnetic fields, including identifying the polar strength of magnetic fields. Using this technology, we can measure the intensity and direction of a magnetic field and determine its polar strength using magnetic sensors. It uses Hall Effect magnetic sensors to detect the polar strength of the magnetic field within the appropriate distance range and size. Using nodemcu ESP8266 as a microcontroller then uses Google Firebase to receive data from the microcontroller and also servo motors to drive the measuring instrument mechanism system. The results of this magnetic field measurement test were carried out with a variation in distance of 1 cm to 5 cm, in testing experiments with a distance of 1 cm showed that the comparison of sensor reading values with calibrated measuring instruments was 46.8 Gauss for measuring instruments and 46.94 Gauss for Hall Effect magnetic sensors, while the average error value was 0.52% and the average accuracy value was 99.48%. In testing measurements of both magnetic field poles, the north pole and south pole using magnetic sensors show that the Gauss value of the magnetic north pole is always higher than the Gauss value of the magnetic south pole, the north pole value is 44.04 Gauss while the south pole value is 36.41 Gauss. Keywords: Magnetic, Hall Effect Sensors, Gauss

Item Type: Thesis (Undergraduate Thesis)
Subjects: T Technology > T Technology (General)
Divisions: Faculty of Telecommunication and Electrical Engineering > Telecommunication Engineering
Depositing User: repository staff
Date Deposited: 01 Aug 2024 03:31
Last Modified: 01 Aug 2024 03:31
URI: http://repository.ittelkom-pwt.ac.id/id/eprint/10837

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