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PERANCANGAN SISTEM PROTEKSI PETIR EKSTERNAL DI GEDUNG B FAKULTAS SAINS DAN TEKNOLOGI UNIVERSITAS JAMBI Firnando, Hendra; Tessal, Dasrinal; Manab, Abdul
Jurnal Informatika dan Teknik Elektro Terapan Vol 12, No 3 (2024)
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jitet.v12i3.4735

Gedung B Fakultas Sains dan Teknologi Universitas Jambi merupakan gedung bertingkat dengan 4 lantai yang belum memiliki sistem proteksi petir eksternal. Penelitian ini menggunakan metode deskriptif kuantitatif dengan melakukan observasi dalam pengambilan data. Pengolahan data yang dilakukan berupa data konstruksi bangunan, jumlah hari guruh dan pengukuran grounding. Hasil dari analisis tingkat kebutuhan sistem proteksi petir eksternal menggunakan pedoman SNI 03-7015-2004 sebesar 0,74 berada pada tingkat proteksi IV. Pada perancangan sistem proteksi petir eksternal di gedung B Fakuktas Sains dan Teknologi Universitas Jambi menggunakan metode bola bergulir, menggunakan terminasi udara konvensional dengan diameter ¾ Inch (19,05 mm), Kabel BC 16 mm2, dan Grounding Rod Bc ½ Inch (12 mm) dengan penggunaan terminasi udara sebanyak 9 buah dengan posisi 3 berbaris pada posisi tengah, samping kiri dan samping kanan pada atap gedung. Perancangan sistem grounding pada penelitian ini menggunakan sistem multiple rod dengan jumlah 6 rod kedalaman 1 meter dengan nilai tahanan pentanahan 4,69 yang berada pada belakang kanan gedung. Total biaya yang akan digunakan sebesar Rp. 73.379.424,-.Kata Kunci : Perancangan, Sistem proteksi petir eksternal, Grounding.

Assessing Voltage and Frequency Instability in Renah Kemumu's Micro Hydro Power Plant Tessal, Dasrinal; Candra, Joko; Manab, Abdul; Corio, Dean
ELECTRON Jurnal Ilmiah Teknik Elektro Vol 5 No 1: Jurnal Electron, Mei 2024
Publisher : Jurusan Teknik Elektro Fakultas Teknik Universitas Bangka Belitung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33019/electron.v5i1.101

The increasing demand for energy and the need for environmental sustainability have led to the adoption of renewable energy sources, such as micro-hydropower plants (PLTMH), in isolated communities in Indonesia. However, voltage and frequency instability issues are commonly encountered in PLTMH systems, which undermine their performance. In 2009, a micro-hydropower plant with a capacity of 30 KW was built in Renah Kemumu village. Ranah Kemumu village is located in Jangkat sub-district, Merangin district, Jambi province. In this study, the voltage and frequency instability of PLTMH in Renah Kemumu Village were investigated. The methodology employed in this study was observational. The voltage and frequency data were measured and recorded during peak load hours from 18.00 to 21.00 over one month. The percentage increase relative to the standard voltage and frequency was calculated. Boxplots were generated to visualize the distributions. The voltage measurements showed maximum and minimum values of 270 V and 264 V, representing increases of 22.72 % and 20.45% from the 220 V (standard set by the power utility (PLN)). The frequency ranged from 66.32 Hz to 57.46 Hz, corresponding to 30.92% and 14.92% deviations from the 50 Hz (standard set by the power utility (PLN)). These values exceeded the tolerance limits of the State Electricity Company of Indonesia. The analysis indicates that the voltage and frequency levels at the PLTMH in Renah Kemumu Village are unstable during peak loads, with fluctuations stemming from changing water flows, load currents, and weather conditions

PERANCANGAN SISTEM PROTEKSI PETIR EKSTERNAL DI GEDUNG B FAKULTAS SAINS DAN TEKNOLOGI UNIVERSITAS JAMBI Firnando, Hendra; Tessal, Dasrinal; Manab, Abdul
Jurnal Informatika dan Teknik Elektro Terapan Vol. 12 No. 3 (2024)
Publisher : Universitas Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jitet.v12i3.4735

Gedung B Fakultas Sains dan Teknologi Universitas Jambi merupakan gedung bertingkat dengan 4 lantai yang belum memiliki sistem proteksi petir eksternal. Penelitian ini menggunakan metode deskriptif kuantitatif dengan melakukan observasi dalam pengambilan data. Pengolahan data yang dilakukan berupa data konstruksi bangunan, jumlah hari guruh dan pengukuran grounding. Hasil dari analisis tingkat kebutuhan sistem proteksi petir eksternal menggunakan pedoman SNI 03-7015-2004 sebesar 0,74 berada pada tingkat proteksi IV. Pada perancangan sistem proteksi petir eksternal di gedung B Fakuktas Sains dan Teknologi Universitas Jambi menggunakan metode bola bergulir, menggunakan terminasi udara konvensional dengan diameter ¾ Inch (19,05 mm), Kabel BC 16 mm2, dan Grounding Rod Bc ½ Inch (12 mm) dengan penggunaan terminasi udara sebanyak 9 buah dengan posisi 3 berbaris pada posisi tengah, samping kiri dan samping kanan pada atap gedung. Perancangan sistem grounding pada penelitian ini menggunakan sistem multiple rod dengan jumlah 6 rod kedalaman 1 meter dengan nilai tahanan pentanahan 4,69 yang berada pada belakang kanan gedung. Total biaya yang akan digunakan sebesar Rp. 73.379.424,-.Kata Kunci : Perancangan, Sistem proteksi petir eksternal, Grounding.

Designing a Google Voice-Based Solar Panel Cleaner Control System Tessal, Dasrinal; Marzal, Jefri; Triantini, Dewi; Wirasapta , Andicho Haryus; Fikri , Muhammad Khalis; Saputra , Angga Riyan Trio; Mishi , Salmuna Sajjad
Jurnal Edukasi Elektro Vol. 9 No. 2 (2025): Jurnal Edukasi Elektro Volume 9, No. 2, November 2025
Publisher : DPTE FT UNY

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21831/jee.v9i2.90041

Current solar panel maintenance often involves manual, rooftop fieldwork, which introduces significant fall-from-height risks and occupational hazards. To address this, this research investigates the integration of the Internet of Things (IoT) to streamline and enhance operational efficiency. The goal is to develop an IoT-enabled solution for user-driven routine maintenance that can significantly mitigate occupational hazards and reduce maintenance duration. This system is designed to optimize the long-term energy yield of solar panels by preventing the typical efficiency decline caused by neglected upkeep. The study employs a prototype development method (literature review, construction model design, and control system development). The final system leverages common consumer-grade terminal devices (smartphones, laptops) to provide a ubiquitous, real-time control interface, allowing users to manage the system remotely via a stable network connection.

Development of PLTS Trainers as Learning Media in the Energy Conversion Laboratory Alensyah, Ardo; Nehru, Nehru; Manab, Abdul; Hais, Yosi Riduas; Tessal, Dasrinal; Kurniawan, Wawan
Circuit: Jurnal Ilmiah Pendidikan Teknik Elektro Vol. 8 No. 1 (2024)
Publisher : PTE FTK UIN Ar-Raniry

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22373/crc.v8i1.19674

Enhancing the quality of learning is worthy by the availability of PLTS trainers. This work intends to build and create PLTS trainers as learning material for renewable energy generation. The preparation of this study was divided into two stages: first, a PLTS media trainer kit and a practical training module that functioned as a handbook for using the media trainer were created. The ADDIE method is used as the development model for the practical guiding module and media trainer. Based on the data analysis findings show that the 10Wp solar module can provide a maximum energy of 5.11Wp for 11 hours when charging a 7.5Ah battery. With a 63 Watt total load, the PLTS trainer's Ah battery can run for 37 minutes. With an average percentage of 93% and 92%, respectively, the material expert validator and media expert have deemed the media trainer and practicum instruction module feasible. This places them in the very good category

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