Pengembangan Instrumen Pengukuran Energi Listrik Berbasis ESP32 Dengan Integrasi Sensor Arus SCT013 dan Sensor Tegangan ZMPT101B

Authors

DOI:

https://doi.org/10.26418/positron.v15i2.100457

Keywords:

instrument, energy, electric, sensor, IoT

Abstract

Telah dilakukan penelitian tentang pengembangan instrumen pengukuran energi listrik berbasis ESP32 dengan integrasi sensor arus SCT013 dan sensor tegangan ZMPT101B. Tujuan dari penelitian ini yaitu mengembangkan instrumen pengukuran baru untuk pemantauan dan analisis konsumsi energi listrik yang akurat, mudah digunakan, dan murah. Metode yang digunakan dalam penelitian ini yaitu merancang perangkat keras dengan merakit sensor SCT013, ZMPT101B, ESP32 ke dalam satu rangkaian instrumentasi, merancang sistem perangkat lunak, dan menguji instrumen yang dikembangkan. Hasil pengujian pada beban resistif lampu pijar 100 W, 200 W, 300 W, dan 400 W menunjukkan bawa instrumen dapat mengukur energi listrik dengan nilai masing-masing sebesar (147,01±4,65) W, (215,53±6,45) W, (273,23±8,18) W, dan (322,85±9,59) W. Berdasarkan kalibrasi dengan alat standard, instrumen dapat mengukur dengan baik pada beban 200 W. Instrumen pengukuran energi listrik yang dikembangkan dapat menampilkan hasil ukur dengan baik pada smartphone/laptop menggunakan sistem IoT.

References

Bakiri, H. A. dan Mbembati, H. , The effect of electricity consumption determinants in household load forecasting models, Journal of Electrical Systems and Information Technology, 10(1), 2023.

Aggour, H. S. dan Atia, D. M. , Energy management of integrated PV/thermal systems in industrial applications, Journal of Electrical Systems and Information Technology, 12(1), pp.80, 2025.

Carter, E. Comparative Analysis of Basic Energy Meters and Metering Technologies. IJASTR-International Journal of Applied Science and Technical Research. , 1(1) . (2024).

Jadhav, N.S., Gautam Petare, P., Tatyaso Dhanawade, N., Vasantrao Patil, P., dan Sanjay Kamble, R. Voltage, Current and Cost Monitoring of Energy Meter by IOT. International Journal of Research Publication and Reviews Journal homepage: www.ijrpr.com. , 5. (2024).

Widyatmika, P.A.W., Indrawati, N.P.A.W., Prastya, W.W.A., Darminta, I.K., Sangka, G.N., dan Sapteka, A.A.N.G., Perbandingan Kinerja Arduino Uno dan ESP32 Terhadap Pengukuran Arus dan Tegangan, Jurnal Otomasi, Kontrol, dan Instrumentasi, 13(1), pp. 37-45, 2021.

Amri, F. , Fitriyanto, I. , Haryanti, T. , Fatwasauri, I. , dan Maknunah, J. , Perancangan Instrumen Alat Ukur Wattmeter Digital Berbasis Arduino nano dan PZEM-004T, Jurnal Teknologi Terapan) |, 9(1), 2023.

Pratama, E. W. dan Kiswantono, A. , Electrical Analysis Using ESP-32 Module In Realtime, JEECS (Journal of Electrical Engineering and Computer Sciences), 7(2), pp.1273–1284, 2023.

Macheso, P. S. dan Thotho, D. , ESP32 Based Electric Energy Consumption Meter, International Journal of Computer Communication and Informatics, 4(1), pp.23–35, 2022.

Guide to the expression of uncertainty in measurement - Part 1: Introduction. (2023).

Putra Widyadharma, A. , Junaedi, I. , Arif Wicaksono, D. , Akbar Nur Apriyanto, R. , Gaguk Pratama Yudha, R. , Erik Echsony, M. , Pribadi, W. , dan Fachrul Yudha, A. , International Research Journal of Advanced Engineering and Science Implementation Study with Resistive-Inductive Load for 1 Phase Generator Testing, International Research Journal of Advanced Engineering and Science, 8(3), pp.120–124, 2023.

Mahmoud, R. A. dan Elwakil, E. S. , Correlation-based polarity-check algorithm for instrument transformers, Journal of Electrical Systems and Information Technology, 11(1), 2024.

Have, B. Ten , Bolzonella, L. , Hartman, T. , Moonen, N. , dan Leferink, F. , Interference on Static Energy Meters Resulting From Droop of the Current Transformer, IEEE Transactions on Electromagnetic Compatibility, 65(5), pp.1343–1350, 2023.

Biswal, S. dan Biswal, M. , Detection of current transformer saturation phenomenon for secured operation of smart power network, Electric Power Systems Research, 1752019.

Roca, A.C., Perpina, R.B., Quesada, G.V., dan Lumbreras, M.R., Burden Resistor Selection in Current Transformers for Low Power Applications, SAAEI

Shi, D. Y. , Buse, J. , Wu, Q. H. , dan Guo, C. X. , Current transformer saturation compensation based on a partial nonlinear model, Electric Power Systems Research, 97pp.34–40, 2013.

Kaczmarek, M. dan Stano, E. , Measuring system for testing the transformation accuracy of harmonics of distorted voltage by medium voltage instrument transformers, Measurement: Journal of the International Measurement Confederation, 1812021.

Tang, C. , Liang, J. , Zhu, Q. , Lu, X. , Shu, J. , dan Jiang, C. , Review of the current transducer techniques, Discover Applied Sciences, 6(351), pp.1-15, 2024.

Ibrahim, K. H., Korany, N. R., dan Saleh, S. M., Effect of power transformer high-frequency equivalent circuit parameters non-uniformity on fault diagnosis using SFRA test, Ains Shams Engineering Journal, 13 pp.2090-4479, 2022.

C57.13-2016 - IEEE Standard Requirements for Instrument Transformers,IEEE, 2016.

Letizia, P. S. , Crotti, G. , Femine, A. D. , Gallo, D. , Iodice, C. , Landi, C. , Luiso, M. , Signorino, D. , dan Giordano, D. , Impact of Temperature on Nonlinearity of Voltage Transformers in Harmonics Measurement, IEEE Transactions on Instrumentation and Measurement, 74, 2025.

Hong, Y. , Measurement analysis of three phase intelligent electricity meter based on nonlinear load, Measurement: Sensors, 33pp.101215, 2024.

Ballal, M. S. dan Wath, M. G. , Current Transformer Accuracy Improvement by Digital Compensation Technique, Mapan - Journal of Metrology Society of India, 34(2), pp.225–237, 201

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Published

2025-12-01