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All Journal MULTIPLE: Journal of Global and Multidisciplinary Journal of International Multidisciplinary Research
Enda Wista Sinuraya
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Religion Humanities Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Languange, Linguistic, Communication & Media Social Sciences Other

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Load Distribution On The Expansion Of The Medium Voltage Distribution Network From Single Phase To Three Phase In Gondorio Using Etap 12.0 Enda Wista Sinuraya; Aris Triwiyatno; Bambang Winardi; arnoto arnoto
Journal of International Multidisciplinary Research Vol. 3 No. 5 (2025): Mei 2025
Publisher : PT. Banjarese Pacific Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62504/1247

Abstract

The Gondoriyo 1-phase network has a network length of 3.2 km supplied by a 1-phase network that is charged in phase S on BSB 1. The extent of the service area makes the load on phase S jump high. The measurement results obtained by the load current during peak load reached a total of 62A. While the load current of the repeater at the time of peak load is phase R of 32A, phase S of 98A, and phase T of 44A. With such conditions, it is necessary to expand the medium voltage distribution network in the Gondoriyo area with the aim of balancing the load on the BSB 1 extension. To facilitate load sharing in the expansion of the Gondoriyo area, the ETAP powerstaion 7.5.0 simulation program is used. which consists of 1 phase simulation before expansion and 3 phase simulation after expansion. From the results of this engineering shrinkage simulation, the total engineering shrinkage value in the 1-phase network before the expansion was 6480 kW, after the network expansion, the total engineering shrinkage changed to 2510.4 kW. With the simulation that has been made, it is expected to produce a load sharing plan that will make it easier for PT PLN (Persero) Rayon Boja to share the load on the network after the expansion.
Perancangan Boost Converter Menggunakan Voltage Feedback Pada Panel Surya Enda Wista Sinuraya; Aris Triwiyatno; Bambang Winardi
urn:multiple://2988-7828multiple.v3i54
Publisher : Institute of Educational, Research, and Community Service

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Energi fosil adalah energi yang paling banyak digunakan, namun ketersediaan bahan bakar fosil semakin menipis. Energi terbarukan dapat digunakan sebagai salah satu pemenuhan energi. Panel surya adalah salah satu energi terbarukan yang bekerja dengan mengubah energi matahari menjadi energi listrik. Pemanfaatan panel surya biasanya dihubungkan langsung dengan beban tanpa konverter pada tegangan rendah. Digunakan boost converter untuk menaikkan tegangan DC. Tegangan keluaran panel surya tergantung pada iradiasi dan beban yang disuplai panel surya. Untuk menjamin tegangan keluaran panel surya konstan, diperlukan umpan balik tegangan pada konverter DC-DC. Pada Penelitian ini dirancang boost converter mengunakan umpan balik tegangan pada panel surya. Tahapan perancangan diawali menghitung komponen boost converter, verifikasi menggunakan software PSIM dan implementasi perangkat keras. Boost converter telah berhasil dibuat dan mampu menghasilkan tegangan keluaran lebih besar sebesar 21,9 – 41,8 volt. Penguatan boost converter dari duty cycle 0%-80% adalah 0,96 – 5,56. Dari pengujian menggunakan umpan balik tegangan variasi iradiasi, beban, iradiasi dari matahari, dan partial shading, tegangan keluaran konverter mampu dijaga konstan 24 volt dengan error rata-rata 0,36%, 0,35%, 0,95%, dan 0,11%. Efisiensi rata-rata boost converter tanpa umpan balik tegangan 85,37% dan dengan umpan balik tegangan 90,26%.
Co-Authors Aris Triwiyatno arnoto arnoto Bambang Winardi