Desain Dan Analisis Pengisian Baterai Sepeda Listrik Mandiri Pada PLTS Off-Grid Fakultas Teknik Universitas Mataram

Authors

  • Supriyatna Universitas Mataram Author
  • Ni Made Seniari Universitas Mataram Author
  • Ida Ayu Sri Adnyani Universitas Mataram Author
  • Sabar Nababan Universitas Mataram Author
  • Abdul Natsir Universitas Mataram Author
  • Muhammad Rivaldi Harjian Universitas Mataram Author
  • Agung Herdiansyah Universitas Mataram Author

Keywords:

plts off-grid, sepeda listrik, pengisian baterai, efisiensi charger

Abstract

Peningkatan penggunaan kendaraan listrik mendorong kebutuhan sistem pengisian energi yang ramah lingkungan dan mandiri. Pemanfaatan Pembangkit Listrik Tenaga Surya (PLTS) off-grid menjadi salah satu solusi untuk mendukung sistem pengisian baterai kendaraan listrik tanpa ketergantungan pada jaringan listrik konvensional. Penelitian ini bertujuan merancang dan menganalisis sistem pengisian baterai sepeda listrik mandiri menggunakan PLTS off-grid berkapasitas 1200 Wp di Fakultas Teknik Universitas Mataram. Sistem yang dirancang terdiri atas panel surya, Solar Charge Controller (SCC), baterai, inverter, dan box charger yang dilengkapi sistem kendali pengisian. Pengujian dilakukan pada baterai sepeda listrik 48 V–12 Ah menggunakan dua skenario pengisian, yaitu arus tetap dan arus tidak tetap. Hasil pengujian menunjukkan bahwa metode pengisian arus tidak tetap menghasilkan waktu pengisian lebih cepat, yaitu 6,5 jam dengan kebutuhan energi total sebesar 681,02 Wh, sedangkan metode arus tetap menghasilkan pengisian yang lebih stabil dan berpotensi meningkatkan umur baterai. Analisis efisiensi box charger menunjukkan nilai efisiensi pengisian berada pada rentang 80–98% dengan rata-rata sebesar 90,28%. Hasil penelitian menunjukkan bahwa sistem pengisian berbasis PLTS off-grid mampu bekerja secara efektif dan memiliki efisiensi yang tinggi untuk mendukung stasiun pengisian kendaraan listrik skala kampus.

References

[1] Supriyatna, Abdul Natsir, Ni Made Seniari, Ida Ayu Sri Adnyani, Sabar Nababan. 2024, Pemetaan Potensi Energi Surya Berbasis Global Solar Atlas di Fakultas Teknik Universitas Mataram, Jurnal JEITECH – Journal of Electrical Engineering and Information technology Department of Electrical Engineering University of Mataram Vol. 2, No. 1, March 2024, pp. 7-14; E-ISSN: 2987-7830.

[2] Kompas. "Populasi Kendaraan Listrik di Indonesia Saat Ini Capai 144.547 Unit". Available online: https://otomotif.kompas.com/read/2024/05/30/ 184100515/populasi-kendaraan-listrik-di-indonesia-saat-ini-capai-144.547-unit (diakses 06 November 2024).

[3] Vinit Kumar, Villuri Ravi Teja, Mukesh Singh, S. Mishra. 2019, PV Based Off-Grid Charging Station for Electric Vehile. IFAC PapersOnLine 52-4 (2019) 276–281.

[4] Aanya Singh, Shubham Sanjay Shaha, Nikhil P G, Yendaluru Raja Sekhar, Shaik Saboor and Aritra Ghosh. 2021, Design and Analysis of a Solar-Powered Electric Vehicle Charging Station for Indian Cities, https://doi.org/10.3390/ wevj12030132

[5] Slamet Suripto, Gilang Ari Widodo Utomo, Kinnu Purwanto, Krisma Trinanda Putra, Muhamad Yusvin Mustar, Mosiur Rahaman, 2022; Design and Analysis of Solar-powered E-bike Charging Stations to Support the Development of Green Campus. Journal of Electrical technology UMY, Vol 6, No. 2 Desember 2022.

[6] Shubham Mishra, Gaurav Dwivedi, Subho Upadhyay, Anurag Chauhan; 2022; Modelling of standalone solar photovoltaic based electric bike charging, Internatonal Conference on Advancement in Materials, Manufacturing and Energy Engineering (ICAMME-2021).

[7] Mohamed Ahmed Mohamed, Fatma Ahmed Mohamed, 2020; Design and Simulate an Off-Grid PV System with a Battery Bank for EV Charging, Universal Journal of Electrical and Electronic Engineering 7(5): 273-288, 2020. DOI: 10.13189/ujeee.2020.070502.

[8] S. Thangalakshmi1, K. Sivasami and Saad Khan, 2023; Design And Implementation of Solar Charging Station for Electric Vehicles, IIRE Journal Of Maritime Research And Development (IJMRD) Volume 7 Issue 2.

[9] Ali. A. Shalbaf, 2024. Topological Comparison of Multi-Port Converters for Grid-Connected Solar Energy and Electric Vehicle charging Systems. The 4rd Conference on Applied Research in Electrical Engineering,

[10] Abdul Natsir, Supriyatna, Ni Made Seniari, Ida Ayu Sri Adnyani, Sabar Nababan, (2020), “Performance Improvement of Grid Tie Inverter on Microgrid of Solar Photovoltaic”, Proceedings International Conference on Science and Technology (ICST) e-ISSN: 2722-7375 pp: 79-87, Vol. 1.

[11] Isdawimah, Sudibyo, U.B., Setiawan, E.A., (2010), “Analisis Kinerja Pembangkit Listrik Energi Terbarukan Pada Model Jaringan Listrik Mikro Arus Searah”, Jurnal Politeknologi, Vol. 9, No. 2.

[12] Shammya Shananda Saha, Samantha Janko, Nathan G. Johnson, Robin Podmore, Alain Riaud, Ray Larsen, 2016, “A Universal Charge Controller for Integrating Distributed Energy Resources”, Global Humanitarian Technology Conference, 978-1-5090-2432-2/16/$31.00, IEEE.

[13] Olajuyin E. A. 1, Olubakinde Eniola, 2019; Microgrid In Power Distribution System, International Journal of Research - Granthaalayah, 7(8), 387-393. https://doi.org/10.5281/zenodo.3401354.

[14] V. Saravanan, K. M. Venkatachalam, M. Arumugam, M. A. K. Borelessa, K. T. M. U. Hemapala, 2021; Overview of microgrid systems, International Journal of Advances in Applied Sciences (IJAAS)  378 Vol. 10, No. 4, December 2021, pp. 378~391 ISSN: 2252-8814,

[15] Peraturan Menteri Perhubungan No. No. 45 Tahun 2020 tentang “kendaraan tertentu dengan menggunakan penggerak motor listrik.

[16] Joseph Teguh Santoso, 2022. Sepeda Listrik: Perencanaan, Perakitan dan Perbaikan, Yayasan Prima Agus Teknik, Semarang.

Downloads

Published

08/07/2026

Issue

Section

Articles

How to Cite

[1]
“Desain Dan Analisis Pengisian Baterai Sepeda Listrik Mandiri Pada PLTS Off-Grid Fakultas Teknik Universitas Mataram”, jse, vol. 11, no. 3, Jul. 2026, Accessed: Jul. 08, 2026. [Online]. Available: http://jse.serambimekkah.id/index.php/jse/article/view/1899

Similar Articles

61-70 of 136

You may also start an advanced similarity search for this article.