Main Article Content
Abstract
Background: Learning media training is one of the important factors in improving learning outcomes, with learning media that suits the needs, especially students of SMK Teknologi Yayasan Pendidikan Sinar Husni can understand learning. The purpose of the implementation of the community partnership program (PKM) is to produce interactive learning media that is valid, practical and effective to help students of SMK Teknologi master the field of Electronics and Control. Method: The method for implementing Community Partnership Service activities for SMK Teknologi Yayasan Pendidikan Sinar Husni, Department of Electrical Engineering / Electricity, is by first making observations to the location of the School where the Community Service is held, as well as sharing with several Electrical Engineering teachers. This is done to identify service methods that are in accordance with the conditions of the Community Partnership Service Team Partners in the field, so that later it will be right on target. Result: This activity can make and understand basic Arduino Uno learning media and implement it well. Conclusion: It is hoped that in the future this activity can inspire and motivate the participants and can innovate in the development of science and technology in the world of Electronics and Control Instrumentation to support the Industrial Revolution 4.0 program.
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© 2022 Oleh authors. Lisensi Jurnal Solma, LPPM-Uhamka, Jakarta. Artikel ini bersifat open access yang didistribusikan di bawah syarat dan ketentuan Creative Commons Attribution (CC BY) license. (http://creativecommons.org/licenses/by/4.0/).
References
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References
Bharath, N., Harika, G., Susmitha, A. S., Adithya, L. N., & Kumar, K. V. V. (2017). Detection of Fire Accidents Using Gsm & Gps Technologies. 8(3), 1309–1316.
Horvat, G., Vinko, D., & Zagar, D. (2013). Household power outlet overload protection and monitoring using cost effective embedded solution. Proceedings-2013 2nd Mediterranean Conference on Embedded Computing, MECO 2013, June, 242–246. https://doi.org/10.1109/MECO.2013.6601368
Ibnu Hajar, M. H., Dani, A. W., & Miharno, S. (2018). Monitoring of Electrical System Using Internet of Things With Smart Current Electric Sensors. Sinergi, 22(3), 211. https://doi.org/10.22441/sinergi.2018.3.010
Karaaslan, Ş. (2024). Economic Analysis of Automatic Meter Reading on Web Based in Türkiye Using Nginx Load Balancer Technology Nginx Yük Dengeleyicisi Kullanılarak Web Tabanlı Otomatik Sayaç Okumanın Türkiye ’ deki Ekonomik Analizi. 13(3), 31–36.
Machidon, O. M., Stanca, C., Ogrutan, P., Gerigan, C., & Aciu, L. (2018). Power-system protection device with IoT-based support for integration in smart environments. PLoS ONE, 13(12), 1–22. https://doi.org/10.1371/journal.pone.0208168
Nandini Hiremath, Mrunali Kumbhar, Aakrati Pathania, & Vinod Patil. (2015). Smart Fuel Theft Detection using Microcontroller ARM7. International Journal of Engineering Research And, V4(09), 121–126. https://doi.org/10.17577/ijertv4is090155
Nti, I. K., Jonas, Y. S., Williams, A., Isaac, B. A., & Elvis, A. (2019). An Automatic Electrical Load Monitoring , Control and Alert System. International Journal of Advanced Research and Publications, 3(7), 6–10.
Prakasha Rao, D., Professor, A., & Professor, A. (2022). Vehicle Tracking and Monitoring System Using GPS and GSM, based on IOT. International Journal of Current Science, 12(2), 2250–1770. www.ijcspub.org
Ratnawati, N., & Sunardi, S. (2020). Load Characteristics with Current Detection Using an Arduino Based ACS712 Sensor. Buletin Ilmiah Sarjana Teknik Elektro, 2(2), 83. https://doi.org/10.12928/biste.v2i2.1522
Saad, A. M., Masa, M. A., Abdurrahman, T. S. D., & Syarifuddin, A. (2023). Design of IoT-Based Analog kWh Meter Monitoring. PROtek : Jurnal Ilmiah Teknik Elektro, 10(1), 52. https://doi.org/10.33387/protk.v10i1.5571
Sarhan, Q. I. (2018). Internet of Things: a survey of challenges and issues. International Journal of Internet of Things and Cyber-Assurance, 1(1), 40. https://doi.org/10.1504/ijitca.2018.10011246
SEA. (2015). Smart Metering : Overview and Considerations for South African Municipalities. July, 27.
Shankar Kokkula, R. (2018). Temperature monitoring and controlling through GSM. International Journal of Advance Research, 4(3), 815–818.
Siregar, R. F., Affandi, A., Rohana, R., Nasution, A. R., & Tanjung, I. (2024). IoT Smart Control System: Smoke and Fire Detection Using SIM900A Module. Journal of Electrical Technology UMY, 7(2), 48–56. https://doi.org/10.18196/jet.v7i2.19908