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The Solar Tracker Prototype Based on Arduino Uno Setiyono Setiyono; Kunto Wibowo
Jurnal Ecotipe (Electronic, Control, Telecommunication, Information, and Power Engineering) Vol 11 No 1 (2024): Jurnal Ecotipe, April 2024
Publisher : Jurusan Teknik Elektro, Universitas Bangka Belitung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33019/jurnalecotipe.v11i1.4481

The placement of solar panels to capture solar energy is generally installed in a certain and fixed position (static). The dynamic change in the sun's position from east to west at any time means that the solar panels absorb less energy. So, installing an automatic driving device on the solar panel to adjust its perpendicular position to the sun's rays is very necessary. This Solar Tracker tool has 4 light sensors that function to identify the intensity of sunlight as a signal entered by the Arduino Uno microcontroller. This information is then processed to become a signal to drive horizontal and vertical servo motors. The shaft of this motor is connected to the mechanical circuit of the solar panel via a gearbox to carry out movement. A comparator will compare sunlight information and a reference voltage to control the rotation of the servo motor which can determine the time needed for the motor to rotate or stop. The research results on solar panels using a tracker were that the best voltage and current values were obtained between 12.00 – 13.00 WIB with an average voltage value of 11.45 V and an average current value of 0.49A.

Real-Time Monitoring System for Solar Power Plants Using PLC and IoT-Based Architecture KHOWARIZMI, MUHAMMAD HAEKAL; SETIYONO, SETIYONO
ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika Vol 13, No 2: Published April 2025
Publisher : Institut Teknologi Nasional, Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26760/elkomika.v13i2.215

Integrating renewable energy systems with digital monitoring platforms has become essential for efficient energy management and fault detection. This research presents the development of a real-time monitoring system for Solar Power Plants (PLTS) by integrating Programmable Logic Controller (PLC) and Internet of Things (IoT) technologies. The system uses voltage and current sensors to collect electrical parameters from solar panels, which are processed via a Haiwell PLC and displayed locally on an HMI. Additionally, data are transmitted to a cloudbased IoT platform using a Wi-Fi module, enabling remote monitoring via dashboards. The system was tested using a solar panel simulator under controlled conditions. The results showed accurate real-time data acquisition with an average deviation below 3% compared to benchmark measurement tools. This low-cost and scalable system demonstrates a practical solution for modernizing solar energy monitoring in small to medium-scale installations.

Real-Time Monitoring System for Solar Power Plants Using PLC and IoT-Based Architecture KHOWARIZMI, MUHAMMAD HAEKAL; SETIYONO, SETIYONO
ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika Vol 13, No 2: Published April 2025
Publisher : Institut Teknologi Nasional, Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26760/elkomika.v13i2.215

Integrating renewable energy systems with digital monitoring platforms has become essential for efficient energy management and fault detection. This research presents the development of a real-time monitoring system for Solar Power Plants (PLTS) by integrating Programmable Logic Controller (PLC) and Internet of Things (IoT) technologies. The system uses voltage and current sensors to collect electrical parameters from solar panels, which are processed via a Haiwell PLC and displayed locally on an HMI. Additionally, data are transmitted to a cloudbased IoT platform using a Wi-Fi module, enabling remote monitoring via dashboards. The system was tested using a solar panel simulator under controlled conditions. The results showed accurate real-time data acquisition with an average deviation below 3% compared to benchmark measurement tools. This low-cost and scalable system demonstrates a practical solution for modernizing solar energy monitoring in small to medium-scale installations.

BUDIDAYA TANAMAN (TIMUN SURI, TERONG DAN KANGKUNG) ORGANIK DAN SISTEM KELISTRIKAN POMPA AIR DI KELURAHAN TIRTA JAYA Setiyono, Setiyono; Purnomo, Joko; Budiman, Budiman
Jurnal Pengabdian Kepada Masyarakat Darma Saskara Vol 5, No 1 (2025)
Publisher : Jurnal Pengabdian Kepada Masyarakat Darma Saskara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35760/abdimasug.2025.v5i1.14114

Drangrang merupakan kelompok tani yang bermukim di pertengahan kota depok memiliki kegiatan mengolah lahan kosong untuk dijadikan lahan pertanian tanaman organik dimana hasilnya akan diperuntukkan bagi warga lingkungan RT10 RW03 Kelurahan Tirtajaya kecamatan Sukmajaya depok.Jenis tanaman yang akan di budidayakan sangat beragam tiap musimnya , dan pada semester ini akan membudidayakan tanaman timunsuri, kangkung dan terong. Anggota kelompok ini berasal dari warga sekitarnya yang rata rata bekerja di perkantoran. Permasalahan yang dihadapi adalah kurangnya pengetahuan cara pengolahan lahan beserta cara bercocok tanam secara organik yang baik dan benar . Tim pengabdian masyarakat dari Universitas Gunadaram bermaksud untuk memberikan pendampingan dan edukasi perihal permasalahan tersebut sehingga diharapkan dapat memperoleh hasil panen yang baik dan maksimal. Metode yang dilakukan adalah Tim abdimas datang langsung dan membantu penyelesaian pekerjaan mulai dari cara pengolahan lahan, pembibitan, pemupukan , perawatan hingga masa panen tiba. Hasil panen yang diperoleh membuat warga merasa senang karena dapat membantu menaikan tingkat perekonomian dan nutrisi terutama dari hasil tanaman sayuran.

BUDIDAYA TANAMAN (TIMUN SURI, TERONG DAN KANGKUNG) ORGANIK DAN SISTEM KELISTRIKAN POMPA AIR DI KELURAHAN TIRTA JAYA Setiyono, Setiyono; Purnomo, Joko; Budiman, Budiman
Jurnal Pengabdian Kepada Masyarakat Darma Saskara Vol 5, No 1 (2025)
Publisher : Jurnal Pengabdian Kepada Masyarakat Darma Saskara

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35760/abdimasug.2025.v5i1.14114

Drangrang merupakan kelompok tani yang bermukim di pertengahan kota depok memiliki kegiatan mengolah lahan kosong untuk dijadikan lahan pertanian tanaman organik dimana hasilnya akan diperuntukkan bagi warga lingkungan RT10 RW03 Kelurahan Tirtajaya kecamatan Sukmajaya depok.Jenis tanaman yang akan di budidayakan sangat beragam tiap musimnya , dan pada semester ini akan membudidayakan tanaman timunsuri, kangkung dan terong. Anggota kelompok ini berasal dari warga sekitarnya yang rata rata bekerja di perkantoran. Permasalahan yang dihadapi adalah kurangnya pengetahuan cara pengolahan lahan beserta cara bercocok tanam secara organik yang baik dan benar . Tim pengabdian masyarakat dari Universitas Gunadaram bermaksud untuk memberikan pendampingan dan edukasi perihal permasalahan tersebut sehingga diharapkan dapat memperoleh hasil panen yang baik dan maksimal. Metode yang dilakukan adalah Tim abdimas datang langsung dan membantu penyelesaian pekerjaan mulai dari cara pengolahan lahan, pembibitan, pemupukan , perawatan hingga masa panen tiba. Hasil panen yang diperoleh membuat warga merasa senang karena dapat membantu menaikan tingkat perekonomian dan nutrisi terutama dari hasil tanaman sayuran.

Desain Sistem Peringatan Kualitas Udara Menggunakan NodeMCU dan Platform IoT Hermawan, Rangga Bimo; ., Setiyono
Jurnal Telematika Vol. 20 No. 1 (2025)
Publisher : Yayasan Petra Harapan Bangsa

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61769/telematika.v20i1.745

Peningkatan polusi udara di berbagai wilayah menuntut adanya sistem pemantauan kualitas udara yang mampu memberikan informasi secara real-time dan mudah diakses oleh masyarakat. Penelitian ini membahas desain sistem peringatan kualitas udara berbasis NodeMCU dan platform Internet of Things (IoT) sebagai solusi pemantauan yang sederhana, murah, dan efisien. Sistem ini dirancang dengan sensor gas (MQ-series) untuk mendeteksi konsentrasi polutan, modul NodeMCU ESP8266 sebagai pengolah data dan penghubung ke jaringan, serta platform IoT Blynk untuk menampilkan data secara daring dalam bentuk grafik, notifikasi, dan indikator status kualitas udara. Hasil pengujian menunjukkan bahwa sistem mampu menampilkan perubahan kualitas udara secara real-time dengan tingkat akurasi yang memadai dibandingkan alat ukur referensi. Sistem juga dapat mengirimkan notifikasi peringatan otomatis saat kualitas udara melewati ambang batas tertentu. Keterbatasan penelitian ini mencakup sensitivitas sensor terhadap lingkungan dan keterlambatan data saat koneksi internet tidak stabil. Penelitian ini masih terbatas pada penggunaan sensor MQ-135, DHT22, dan LDR, sementara indikator kualitas udara internasional mencakup PM2.5, PM10, CO, NO₂, SO₂, dan O₃. Oleh karena itu, diperlukan penambahan sensor partikel debu dan gas spesifik agar sistem lebih representatif terhadap standar WHO sehingga masih terbuka peluang pengembangan agar lebih informatif dan lengkap.

PEMELIHARAAN DAN PENAMBAHAN DAYA PEMBANGKIT LISTRIK TENAGA SURYA PADA LAHAN PERTANIAN KELOMPOK TANI D’RANGRANG DEPOK Setiyono, Setiyono; Prayogo, Sandy Suryo; Paragya, Dhatu
Jurnal AbdiMas Nusa Mandiri Vol. 7 No. 2 (2025): Periode Oktober 2025
Publisher : LPPM Universitas Nusa Mandiri

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33480/abdimas.v7i2.6303

The Drangrang farmer group’s agricultural garden, located at RT10 RW03, Tirtajaya Village, Sukmajaya District, Depok, covers an area of approximately 1,500 m². The land is used to cultivate vegetables and crops such as corn, peanuts, and cucumbers. Electricity for agricultural operations is supplied by a Solar Power Plant (PLTS) with an initial capacity of 100 Wp. However, along with land expansion and increased load demand, the existing PLTS system could no longer meet energy needs, requiring a capacity upgrade. This community service activity aimed to provide technical assistance for the installation of additional solar panels to increase the PLTS capacity and fulfill electricity requirements for lighting and water pumps. The method included equipment procurement, system assembly in the garden area, and PLTS testing. The activity was carried out by lecturers and students from the Department of Electrical Engineering, Gunadarma University. The stages consisted of design, installation, testing, and measurement. The upgraded PLTS system now provides 200 Wp, capable of supplying four lighting points and one 160 W water pump. The additional capacity ensures a safer and more continuous power supply, supporting improved agricultural productivity and operational efficiency of the farmer group.

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