Fault Detection in a 3-Phase Underground System using Arduino and IoT Modules

Mousam Sharma*, Ragini Singh**, Keyur Pandey***, Kushagra Kumar Mungutwar****
*-**** Department of Electrical and Electronics Engineering, Bhilai Institute of Technology, Durg, Chhattisgarh, India.
Periodicity:January - March'2024
DOI : https://doi.org/10.26634/jee.17.3.20591

Abstract

This paper proposes a shortcoming distance finder model for an underground power link utilizing an Arduino Uno microcontroller. The utilization of underground links presents an issue of distinguishing the shortcoming area and the distance of the link issue as it isn't accessible to see as in the event of an above-ground link. Hence, the underground link shortcoming distance finder is created to distinguish the specific shortcoming area and the distance of the underground link issue from the base station in kilometers. The framework will recognize the blamed link underground and will send the data to the control room by utilizing IoT cloud. A 16x2 LCD display is associated with the microcontroller to show the data. In the event of a shortcoming, the voltage across series resistors changes accordingly, which is then fed to a microcontroller ADC pin to foster accurate digital information to a programmed Arduino microcontroller that further displays the exact shortcoming area from the base station in kilometers. The same data will be updated on the IoT cloud. Incidences of underground link deficiencies in the delivery and power transmission framework are inevitable due to several reasons; thus, a rapid correction and, therefore, automatic shortcoming location are utilized to minimize the time to rectify flaws to make the framework reliable by identifying weak areas quickly, resulting in reduced restoration time and interruption. Proper shortcoming finding and identifying approaches are needed to reduce the intervention time issue and improve reliability.

Keywords

Relays, Radio Frequency Communication, Circuit Breaker, Substation, Power Line Fault, GSM-SMS, Fault Location, Arduino, IoT, Underground Cable.

How to Cite this Article?

Sharma, M., Singh, R., Pandey, K., and Mungutwar, K. K. (2024). Fault Detection in a 3-Phase Underground System using Arduino and IoT Modules. i-manager’s Journal on Electrical Engineering, 17(3), 1-7. https://doi.org/10.26634/jee.17.3.20591

References

[3]. Clegg, B. (1993). Underground Cable Fault Location. McGraw-Hill Companies.
[4]. Darvhankar, G. S., Gharpande, A. S., Bhope, S. D., Meshram, A. S., & Bobade, J. A. (2015). Study of 3-ph underground cable fault locator using acoustic method. International Journal of advance Engineering and Research Development, 2(1), 124-128.
[5]. Dharani, A. D., & Sowmya, T. (2014). Development of a prototype underground cable fault detector. International Journal of Electrical, Electronics and Computer Systems (IJEECS), 2(7), 17-21.
[6]. Islam, M. F., Oo, A. M., & Azad, S. A. (2012, September). Locating underground cable faults: A review and guideline for new development. In 2012 22nd Australasian Universities Power Engineering Conference (AUPEC) (pp. 1-5). IEEE.
[7]. Kedia, T., Sahare, V., Bauri, K. K., Sahu, R. K., Kumar, S., & Lal, A. (2017). Underground cable fault distance detector using Atmega328 Microcontroller. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering (IJAREEIE), 6(10), 8018-8026.
[10]. Paul, M., & Kakoti, R. K. (2016). Underground cable fault locator. International Advanced Research Journal in Science, Engineering and Technology (IARJSET), 3(9), 79-81.
[11]. Sain, N. K., Kajla, R., & Kumar, M. V. (2016). Underground cable fault distance conveyed over GSM. International Organization of Scientific Research Journal of Electrical and Electronics Engineering, 11(2), 6-10.
[12]. Sampathraja, N., Kumar, L. A., Kirubalakshmi, V., Muthumaniyarasi, C., & Murthy, K. V. (2018). IoT based underground cable fault detector. International Journal of Mechanical Engineering and Technology, 8(8), 1299- 1309.
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