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All Journal Vocatech : Vocational Education and Technology Journal G-Tech : Jurnal Teknologi Terapan Jurnal Litek : Jurnal Listrik Telekomunikasi Elektronika
Mauliza, Yuli
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Civil Engineering, Building, Construction & Architecture Computer Science & IT Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Energy Engineering Mechanical Engineering

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Implementasi I/O Advantys STB NIP 2212 dalam Kontrol Pneumatik Valve Diskrit Basyir, M.; Dewi, Arsy Febrina; Andrian, Rian; Khaldun, Ibnu; Mauliza, Yuli
Jurnal Litek : Jurnal Listrik Telekomunikasi Elektronika Vol. 22 No. 1 (2025): Jurnal Litek, March 2025
Publisher : Jurusan Teknik Elektro Politeknik Negeri Lhokseumawe

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30811/litek.v22i1.56

Abstract

Langkah penting dalam sistem instrumentasi industri berbasis SCADA adalah menggunakan perangkat STB NIP 2212 untuk menerapkan Konfigurasi Advantys dalam proses kontrol level. Tujuan dari studi ini adalah untuk mengatur sistem kontrol I/O dan melihat seberapa baik kinerjanya dengan menggunakan perangkat lunak Advantys Configuration untuk menghubungkannya ke jaringan TCP/IP dan PLC Modicon TSX Premium H5724M. Sistem ini dikonfigurasi dengan menghubungkan perangkat keras melalui kabel RJ45 dalam mode standar untuk memastikan komunikasi waktu nyata antara perangkat lunak dan perangkat keras. Hasil pengujian menunjukkan bahwa sistem berhasil mengontrol katup pneumatik secara otomatis berdasarkan data dari pemancar level. Ketika level cairan mencapai batas bawah, pompa diaktifkan dan katup menutup, sedangkan pada batas atas, pompa berhenti dan katup terbuka. Aktivasi lampu indikator pada output digital menunjukkan bahwa saluran berfungsi dengan baik. Hasil uji menunjukkan bahwa menambahkan Advantys STB NIP 2212 ke PLC Modicon TSX Premium H5724M membuat sistem kontrol industri berbasis SCADA bekerja lebih baik dan lebih akurat.
Design and Implementation of a Smart Garden System for Monitoring and Automatic Watering of Maidenhair Fern Using the Blynk Platform Novilia, Ghiyalti; Mauliza, Yuli; Dewi, Arsy Febrina; Afriliansyah, Teuku
G-Tech: Jurnal Teknologi Terapan Vol 10 No 1 (2026): G-Tech, Vol. 10 No. 1 January 2026
Publisher : Universitas Islam Raden Rahmat, Malang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70609/g-tech.v10i1.8824

Abstract

Maidenhair fern (Adiantum tenerum Sw.) is an ornamental plant with high economic value but is highly sensitive to environmental conditions, especially soil moisture, which must be maintained within 50%–80% for optimal growth. Improper cultivation, including poor drainage and fluctuating soil moisture, can cause leaf wilting, root rot, and plant death. This study uses a system design and experimental testing approach to develop a smart garden system for monitoring and automatic watering of maidenhair fern using the Blynk platform. The system integrates an ESP32 microcontroller, soil moisture sensor, relay module, water pump, and Wi-Fi connectivity for real-time monitoring and remote control. Soil moisture conditions were classified as dry (0–49%), moist (50–80%), and wet (80–100%). Results show that the pump activates below 50% and deactivates above 80%, with dry soil (42%–49%) increasing to wet levels (89%–95%) after irrigation. Relay testing confirmed that a high input consistently turns the pump on under dry conditions, while a low input turns it off under moist or wet conditions. Multi-day performance tests demonstrated stable, reliable operation, with real-time data displayed on both LCD and the Blynk application. These findings indicate that the smart garden system effectively regulates soil moisture, simplifies maintenance of maidenhair fern, and provides a practical foundation for IoT-based smart agriculture applications.
Analisis Karakteristik Modul PV Monocrystalline dan Polycrystalline di Lingkungan Tropis Basyir, Muhammad; Finawan, Aidi; Dewi, Arsy Febrina; Mauliza, Yuli; Sitorus, M Fitri Anggito
VOCATECH: Vocational Education and Technology Journal Vol 8, No 1 (2026): April
Publisher : Akademi Komunitas Negeri Aceh Barat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.38038/vocatech.v8i1.324

Abstract

Monocrystalline and polycrystalline photovoltaic modules continue to dominate solar power system applications; however, experimental evidence based on field measurements in tropical environments remains relatively limited. This study aims to analyze and compare the performance of both PV module types through outdoor testing conducted over 30 days in Indonesia, considering the combined effects of module temperature, dust deposition, and relative humidity. The method employed was comparative field testing with real-time monitoring of key electrical parameters, namely voltage, current, and power, as well as environmental variables. The results indicate that monocrystalline modules consistently outperform polycrystalline modules, with an average power output of 102.4 W (8.6% higher) and a conversion efficiency of 17.8% (11.9% higher). Statistical analysis confirms that the performance difference is significant (p 0.0001; Cohen’s d = 1.85). Module operating temperature was identified as the dominant factor contributing to power degradation, followed by dust and humidity. Collectively, these three environmental factors resulted in an estimated power loss of 13.4% for monocrystalline modules and 16.0% for polycrystalline modules. These findings suggest that monocrystalline modules are better suited for small-scale and residential PV applications in tropical regions due to their superior performance, higher efficiency, and greater thermal resilience.   
Co-Authors Afriliansyah, Teuku Andrian, Rian Basyir, M. Dewi, Arsy Febrina Finawan, Aidi Ibnu Khaldun Novilia, Ghiyalti Sitorus, M Fitri Anggito