Design and Realization of Smart Plug Based On QR Code and WIFI Access
DOI:
https://doi.org/10.38035/gijes.v1i2.91Keywords:
Smart Plug, Qr Code, Esp32, Acs712, Zmpt101b.Abstract
The traditional electrical outlet has evolved with the emergence of "smart plugs," which are WiFi-based devices controlled through communication networks. Many innovations and studies have explored the use of smart plugs for remote load control via the internet and some even utilize renewable energy sources like solar power. In this research, we present a smart plug equipped with a QR code control feature, allowing users to manage connected loads efficiently. Additionally, the smart plug includes sensors to measure power consumption, displaying real- time data on the connected devices. Our smart plug system incorporates an ESP32 microcontroller as the core unit and ACS712 and ZMPT101B sensors for electric current and voltage measurements, respectively. The parameters calculated are electric current and voltage, enabling users to monitor energy consumption accurately. Through rigorous testing, we evaluate the accuracy of the ACS712 and ZMPT101B sensors. The results indicate a 11,39% error for electric current measurements using the ACS712 sensor and a 0,022% error for voltage measurements with the ZMPT101B sensor. This research introduces an innovative smart plug that allows control via a QR code and provides real-time power and load information.
References
M. R. Syamsul Amar, " Factors affecting electricity consumption in Indonesia ", Padang: Department of Economic University of Padang, 2019.
A. S. A. E. W. Aldi Rizaldi, " Testing smart plugs for the ESP32 ", Department of Information and Communication Technology, 2020.
F. N. I. Gunawan Tjahjadi, " Design of Stop Contact Energy Controller with Brief Hour Safety System and Internet-based Notification-based Notification Features ", Journal of Electro, 2018.
V. M. A. S. L. Meicsy E.I Najoan, " Electric switch controller via Android smartphone ", Journal of Electrical Engineering and Computer, 2014.
M. B. P. L. Muliadi, " Designing of protection system and monitoring of power use of electricity on the scale of household-based microcontroller based atmega328p ", Tanjungpura, 2018.
T. P. S. U. Y. O. I. F. H. P. Fitri Puspasari, " Analysis of the Arduino-based DHT22 sensor system of the standard thermohygrometer, Physic Journal and application, 2020.
C. L. . S. S. HARLIANTO TANUDJ, ANALYSIS OF CALIBRATION AND UNCERTAINTY OF SOUND LEVEL METER MEASUREMENTS,Jakarta : Jurnal Teknik industri, 2019.
A. Agrawal, "DIY Power Consumption Monitoring Device using ESP32," 12 August 2022. [Online]. Available: https://circuitdigest.com/microcontroller- projects/diy-real-time-energy-monitoring-device-using- esp32
L. Rajendra, "Pengertian PCB," Monday Juli 2022. [Online].
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