350 rub
Journal Radioengineering №8 for 2024 г.
Article in number:
Electromagnetic compatibility analysis of the Arduino platform in the near and far fields
Type of article: scientific article
DOI: 10.18127/j00338486-202408-15
UDC: 621.396
Authors:

V.V. Glotov1, I.V. Ostroumov2, M.V. Khoroshailova3

1-3 Voronezh State Technical University (Voronezh, Russia)

1 vadik-livny@mail.ru; 2 vanik07@mail.ru; 3 pmv2205@mail.ru

Abstract:

Formulation of the problem. Electromagnetic compatibility is the ability of electronic components to operate in a given electromagnetic environment without interfering with each other. Electromagnetic radiation is divided into several types, one of which is intra-component electromagnetic compatibility. For example, these are issues of interaction of electric and magnetic fields inside a single microcontroller. The main purpose of this article is to study the electromagnetic compatibility of the Arduino controller.

Target. The main goal of this work was to obtain information about the state of electromagnetic compatibility of the Arduino platform.

Results. The Arduino Mega 2560 platform was investigated. A map of the electromagnetic field intensity from frequency was constructed. The possibility of the Arduino Mega 2560 platform operation within 10 A/m was revealed.

Practical significance. Arduino Mega 2560, serves for convenient connection of various modules, such as sensors, servos, relays, buttons, potentiometers, etc. The controller has power and ground for each digital and analog pin.

Pages: 156-160
For citation

Glotov V.V., Ostroumov I.V., Khoroshailova M.V. Analysis of electromagnetic compatibility of the Arduino platform in the near and far fields. Radiotekhnika. 2024. V. 88. № 8. P. 156−160. DOI: https://doi.org/10.18127/j00338486-202408-15 (In Russian)

References
  1. Zheng Q., Xiao M., Shi H., Wang T. UAV Direction Estimation Based on Spatial Smoothing Technology. 2019 3rd International Conference on Electronic Information Technology and Computer Engineering (EITCE). Xiamen. China. 2019. Р. 822-825.
  2. Wang L., Huang Y. UAV-Based Estimation of Direction of Arrival: An Approach Based on Image Processing. 2020 International Conference on Wireless Communications and Signal Processing (WCSP). Nanjing. China. 2020. Р. 1165-1169.
  3. Zhang L., Zhao H., Hou S., Zhao Z., Xu H., Wu X., Wu Q., Zhang R. A Survey on 5G Millimeter Wave Communications for UAV-Assisted Wireless Networks. IEEE Access. 2019. V. 7. Р. 117460-117504.
  4. Hanna S., Krijestorac E., Cabric D. Destination-Feedback Free Distributed Transmit Beamforming Using Guided Directionality. IEEE Transactions on Mobile Computing. 2022.
  5. Barannikov I.A., Pasternak Ju.G., Pendjurin V.A., Fedorov S.M. Algoritmy approksimacii jelektromagnitnogo polja i sinteza diagramm napravlennosti antennyh reshetok. Jelektromagnitnye volny i jelektronnye sistemy. 2024. T. 29. № 1. S. 56−74. DOI: https://doi.org/10.18127/j15604128-202401-05 (in Russian).
Date of receipt: 03.06.2024
Approved after review: 05.06.2024
Accepted for publication: 30.07.2024