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All Journal Jurnal Media Elektro : Journal of Electrical Power, Informatics, Telecommunication, Electronics, Computer and Control System JURNAL PENDIDIKAN TAMBUSAI
Meok, Nixson J.
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Computer Science & IT Control & Systems Engineering Electrical & Electronics Engineering Energy Engineering Social Sciences

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Peningkatan Kemandirian Belajar Melalui Simulasi Proteus dalam Praktikum Perakitan Pesawat Elektronika Narang, Nur Hijriah Zubaedah; Meok, Nixson J.; Arpin, Risal Mantofani; Radja, Abdi Kurniawan
Jurnal Pendidikan Tambusai Vol. 9 No. 2 (2025): Agustus
Publisher : LPPM Universitas Pahlawan Tuanku Tambusai, Riau, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31004/jptam.v9i2.29013

Abstract

Studi literatur ini mengkaji peran simulasi Proteus dalam meningkatkan kemandirian belajar pada praktikum perakitan pesawat elektronika melalui metode Systematic Literature Review (SLR) terhadap 10 artikel terpilih (2014–2023). Hasil penelitian menunjukkan bahwa Proteus efektif menciptakan lingkungan belajar virtual yang interaktif, memfasilitasi eksperimen mandiri melalui fitur real-time simulation dan visualisasi, seperti animasi aliran arus dan osiloskop virtual. Studi Mukminin (2016) dan Waluyo et al. (2021) membuktikan peningkatan signifikan hasil belajar (nilai t-hitung 5,113) dan pemahaman konseptual (97% mahasiswa) dengan penggunaan Proteus. Integrasi Proteus dengan model pembelajaran seperti Problem-Based Learning (PBL) dan Self-Directed Learning (SDL) juga meningkatkan motivasi dan keterlibatan siswa. Simulasi ini mengatasi keterbatasan alat fisik laboratorium sekaligus mendorong kemandirian melalui eksplorasi desain, identifikasi kesalahan, dan evaluasi mandiri. Namun, praktikum konvensional tetap diperlukan untuk melatih keterampilan hands-on. Simpulannya, Proteus berperan sebagai solusi komplementer yang optimal jika dikombinasikan dengan pendekatan pedagogis inovatif dan praktik fisik.
Perancangan dan Implementasi Smart kWh Meter Berbasis ESP32 untuk Manajemen Energi pada Pelanggan Rumah Tangga 1300 VA Nursalim, Nursalim; Galla, wellem F; Tena, Silverster; Meok, Nixson J.
Jurnal Media Elektro Vol 14 No 2 (2025): Oktober 2025
Publisher : Universitas Nusa Cendana

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35508/jme.v0i0.26954

Abstract

This study aims to design and implement a smart kWh meter system based on ESP32 that is capable of monitoring and controlling electricity consumption in households with a connected power of 1300 VA. The developed system utilizes the ESP32 microcontroller as the main data processor, which is integrated with the PZEM-004T sensor to measure electrical parameters, including voltage, current, power, energy, and power factor. Measurement data is displayed in real-time through the Blynk application, while control and limitation of energy consumption are managed using a Telegram bot service. The system is equipped with a relay to automatically disconnect the load when energy consumption exceeds a predetermined limit. System testing is conducted by comparing the sensor measurement results against the PLN kWh meter as a reference tool. The test results indicate that the developed smart kWh meter system operates effectively and possesses an average current measurement accuracy of above 99% across various types of household loads. Additionally, the load control and notification system based on Telegram functions reliably in limiting electricity consumption. Therefore, this system can serve as an effective solution to assist household users in monitoring and controlling electricity consumption more efficiently.
Co-Authors Abdi Kurniawan Radja Galla, Wellem F Nur Hijriah Zubaedah Narang Nursalim Nursalim Risal Mantofani Arpin Tena, Silverster