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All Journal COMSERVA: Jurnal Penelitian dan Pengabdian Masyarakat Journal of Comprehensive Science Cerdika: Jurnal Ilmiah Indonesia

Seda, Fransiskus

Unknown Affiliation

Author-ID : 9121514

Humanities Computer Science & IT Economics, Econometrics & Finance Education Electrical & Electronics Engineering Health Professions Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Library & Information Science Public Health Social Sciences

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Pemasangan Pambangkit Listrik Tenaga Surya Tipe Off Grid Kapasitas 120 X 2 WP pada Rumah di Daerah Terpencil Seda, Fransiskus; Rochani, Rochani; A., Sulaiman
Journal of Comprehensive Science Vol. 4 No. 2 (2025): Journal of Comprehensive Science (JCS)
Publisher : Green Publisher Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59188/jcs.v4i2.3046

Solar panels are a rapidly developing solar power generation technology that serves as a renewable energy solution, particularly in remote areas that are difficult to reach by conventional electricity grids. The main challenges in implementing this technology include low public awareness, high installation costs, and the influence of environmental conditions on its performance. This study aims to analyze the effectiveness and efficiency of off-grid solar panels in generating electricity and to evaluate the environmental factors affecting their performance. The novelty of this research lies in its analytical approach, which considers not only sunlight intensity and solar panel types but also the geographical and socio-economic aspects of the local community. The research method used is an experimental approach by conducting direct testing of a 120 x 2 WP off-grid Solar Power Plant (PLTS) system installed in a household in a remote area. Data was obtained through observation, technical measurements, and documentation. The results showed that the highest voltage produced by the solar panel was 12.5 volts under clear weather conditions, whereas it decreased to 12.1 volts under cloudy conditions. In maximum load testing, the generated electrical power remained sufficient to supply household needs despite a voltage drop. In conclusion, the 120 x 2 WP off-grid PLTS system can serve as an effective energy solution in remote areas, although optimal load management is necessary to maintain energy efficiency.

Analisa Hasil Pengujian Resistor Filem Karbon 4 Gelang Warna dan Metal Filem Resistor 5 Gelang Warna Seda, Fransiskus; Ada, Yustinus Sanda Bungin
Cerdika: Jurnal Ilmiah Indonesia Vol. 5 No. 6 (2025): Cerdika: Jurnal Ilmiah Indonesia
Publisher : Publikasi Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59141/cerdika.v5i6.2712

The rapid development of technology today has a significant impact, especially in the field of education, especially for students who are not able to carry out measurements of electronic components, such as resistors of four and five color bracelets. This study was conducted on 10 resistors of four color bracelets and 10 resistors of five color bracelets to determine the value of resistance, voltage, and current in each resistor. The measurement results of the carbon film resistor show the lowest resistance value of 47? and the highest 56,000?. Meanwhile, in the five-color bracelet film metal resistor, the lowest resistance value is 1? and the highest is 3,300?. In voltage analysis, the four-band resistor produces the lowest voltage of 18.6 mV and the highest of 220.5 mV, while the five-band resistor of the color bracelet produces the lowest voltage of 210 mV and the highest of 220.9 mV. For current analysis, the color four-band resistor has a lowest current of 0.003 mA and a highest of 220 mA, while a color bracelet resistor has a lowest current of 0.1 mA and a highest of 4.7 mA. This measurement and analysis is expected to help technicians and students majoring in Electrical Engineering in understanding the value of resistance, voltage, and current on four and five color bracelet resistors in Basic Electronics lectures.

Pengukuran dan Pengamatan Kode dan Angka Fixed Kapasitor Jenis Elektrolit (Elco) Rochani; Mone, Otnial Anderias; Therik, Johanis W.D; Seda, Fransiskus
Cerdika: Jurnal Ilmiah Indonesia Vol. 5 No. 8 (2025): Cerdika: Jurnal Ilmiah Indonesia
Publisher : Publikasi Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59141/cerdika.v5i8.2806

Perkembangan teknologi yang pesat menimbulkan tantangan dalam bidang pendidikan, khususnya kemampuan peserta didik dalam mengamati dan menguji komponen elektronik seperti kapasitor serta menentukan kapasitansinya. Penelitian ini bertujuan untuk menganalisis kode dan angka pada kapasitor elektrolit tetap (fixed capacitor) melalui pengukuran dan pengamatan sistematis. Masalah penelitian difokuskan pada kesulitan identifikasi nilai kapasitansi kapasitor elektrolit dan penentuan parameter listriknya. Metode penelitian menggunakan pendekatan eksperimental dengan pengukuran langsung menggunakan multimeter digital terhadap lima sampel kapasitor elektrolit dengan nilai berbeda (10µF, 22µF, 33µF, 220µF, dan 470µF). Hasil penelitian menunjukkan bahwa kapasitor dengan kapasitas 10µF sampai 470µF merupakan jenis kapasitor polar dan non-polar yang mampu menyimpan muatan listrik dengan rentang tegangan 30mV-63.002V, arus 764.719mA-9.402A, dan beban 0.021W-470.001W. Analisis menunjukkan bahwa pengamatan kode angka pada badan kapasitor dapat menentukan kapasitansi dan parameter listrik secara efektif. Implikasi penelitian ini memberikan kontribusi pada pembelajaran komponen elektronik di SMK dan membantu teknisi dalam identifikasi kapasitor untuk perbaikan peralatan elektronik.

Mengontrol Lampu dengan Prototipe pada Rumah Cerdas Konsep Internet of Thinfgs Menggunakan Arduino Berbasis Web Ada, Yustinus Sanda Bungin; Pabiban, Duma; Bajowawo, Maria.D.; Seda, Fransiskus
COMSERVA : Jurnal Penelitian dan Pengabdian Masyarakat Vol. 4 No. 12 (2025): COMSERVA: Jurnal Penelitian dan Pengabdian Masyarakat
Publisher : Publikasi Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59141/comserva.v4i12.3071

Seiring dengan meningkatnya kebutuhan akan kenyamanan dan efisiensi energi, teknologi smart home berbasis Internet of Things (IoT) semakin relevan dalam kehidupan sehari-hari. Salah satu elemen penting dalam smart home adalah pengendalian lampu dari jarak jauh. Penelitian ini bertujuan untuk mengembangkan sistem kontrol lampu berbasis IoT menggunakan Arduino yang dapat dioperasikan melalui aplikasi smartphone, untuk meningkatkan efisiensi energi dan kenyamanan penghuninya. Metode yang digunakan adalah eksperimen dengan pendekatan kuantitatif, di mana sistem diuji untuk mengoperasikan lampu dari jarak jauh dengan memanfaatkan koneksi internet. Hasil penelitian menunjukkan bahwa sistem pengendalian lampu dapat berfungsi dengan baik, dengan waktu respons antara 1,6 hingga 3,99 detik. Sistem ini juga memungkinkan pengoperasian lampu di lokasi yang berbeda, seperti Oebobo (TDM2) - Penfui (PNK), Flores-NTT ke Penfui (PNK), dan Malaysia-Indonesia (Penfui-NTT). Implikasi dari penelitian ini adalah sistem kontrol lampu berbasis IoT dapat digunakan untuk mengurangi pemborosan energi di rumah tangga, meningkatkan kenyamanan penghuni, serta memberikan kontribusi pada pengurangan emisi karbon. Penelitian ini juga memberikan wawasan mengenai penerapan teknologi IoT dalam sistem smart home yang lebih efisien dan terjangkau.

Co-Authors A., Sulaiman Bajowawo, Maria.D. Duma Pabiban, Duma Mone, Otnial Anderias Rochani Rochani Rochani Therik, Johanis W.D Yustinus Sanda Bungin Ada, Yustinus Sanda Bungin

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