PROTOTYPE SISTEM MONITORING ARUS DAN TEGANGAN PANEL SURYA BERBASIS IOT MENGGUNAKAN APLIKASI BLYNK
DOI:
https://doi.org/10.30736/je-unisla.v8i1.1056Keywords:
Solar Panel, IoT, Blynk, MAPEAbstract
As we know that solar panel monitoring is still manual, measuring parameters with AVO or has to come to the area. This study aims to design a solar panel monitoring prototype that can display data in real time. current sensor and voltage sensor connected to arduino. Arduino is connected to the ESP8266 wifi module, from this wifi module the prototype can connect to the Blynk application on a smartphone. Voltage and current measurement can be viewed via a smartphone with Blynk application. The Prototype used Wifi module as a data sender to the Blynk Server so it can be monitored via a smartphone. The test of  feasibility was by calculating using MAPE (Mean Absolute Percentage Error analyse error. The result of current and voltage of the 9V battery, AVO reads 8.78V and Blynk application were 8.82V, while the current value on AVO was 0.23 A, and the Blynk application 0.23 A. In the solar panel experiment, current and voltage readings were obtained the AVO is 18.0V and 1.41 A, while the monitoring results show the voltage reading is 17.98 V and the current is 1.35 A. From these results it can be concluded that the error analysis of the sensor reading results with the AVO based on the MAPE function is ± 2%. From this analysis it can be concluded that the built prototype is able to monitor current and voltage properly using Blynk Apllication with real time.
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References
Adi, P. (2020). Perancangan Sistem Monitoring Pada Pembangkit Listrik Tenaga Surya On-grid Berbasis Arduino. Univeristas Mataram: Doctoral Dissertation.
Ali, M. &. (2020). Pemanfaatan Energi Matahari Sebagai Energi Bersih yang Ramah Lingkungan. Jurnal Energi Baru dan Terbarukan, 68-67.
Apriyani, Y. (2021). Monitoring Arus dan Tegangan Pembangkit Listrik Tenaga Surya Menggunakan Internet Of Things. JATISI, 8(2),889-895.
Arwanda, D. (2017). Monitoring Output dan Pencatatan Data Pada Panel Surya Berbasis Miktokontroler. Politeknik Negeri Sriwijaya: Doctoral Dissertation.
Assidiq, H. (2018). Studi Pemanfaatan Energi matahari Sebagai Sumber Energi Alternatif Terbarukan Berbasis sel Fotovoltaik untuk Mengatasi Kebutuhan Listrik rumah sederhana Daerah Terpencil. Al Jazari, 3(2).
Baskoro, F. F. (2021). Monitoring Arus, Tegangan, dan Suhu pada Prototype Thermoelectric Generator Berbasis IoT. Jurnal Teknik Elektro, 10(1), 137-144.
Budiharto, W. (2020). Menguasai Pemrograman Arduino dan Robot. Jakarta: CV Pusat e-Technology.
Jufrizel, J. &. (2017). Perencanaan Teknis dan Ekonomis Pembangkit Listrik Tenaga Surya Sistem On-Grid. Seminar Nasional Teknologi Informasi Komunikasi dan Industri, 430-436.
Marbun, M. &. (2021). Pembuatan Alat Ukur Resistivitas dengan Sistem Sensor Tegangan dan Sensor Arus ACS712 Berbasis Mikrokontroler Arduino Nano. Jurnal Mekanova, 7(2).
Pawitra, A. K. (2020). Review Perkembangan PLTS di Provinsi Bali menuju Target Kapasitas 108 MW tahun 2025. Majalah Ilmiah Teknologi Elektro, 181.
Prameswari, L. L. (2022). Rancang Bangun Rumah Pintar dengan Google Assistant menggunakan NodeMCU berbasis Internet of Things. ELECTRA, 3(1),28-34.
Purwanto, S. (2021). Pengembangan Sistem Pengaturan Suplai Beban (Ats) Pada Pembangkit Listrik Tenaga Hibrid Beebasiskan Mikrokontroler. KILAT, 10(2), 261-271.
Susilo, D. S. (2021). Sistem Kendali Lampu pada Smart Home Berbasis IOT (Internet of Things). ELECTRA, 2(1), 23-30.
Syahwil, M. &. (2021). Rancang Bangun Modul Pembangkit Listrik Tenaga Surya (PLTS) Off-Grid Sebagai Alat Penunjang Praktikum di Laboratorium. Jurnal Pengelolaan Laboratorium Pendidikan, 3(1), 26-35.
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