Enhancing Competence in Battery-Based Electric Vehicle Installation and Programming at SMK Negeri Jambu

Authors

  • Ninda Kurniadi Universitas Negeri Semarang
  • Septian Eko Cahyanto Universitas Negeri Semarang
  • Alfian Ardhiansyah Universitas Negeri Semarang
  • Ajeng Rahma Sudarni Universitas Negeri Semarang
  • Kaleb Priyanto Universitas Negeri Semarang
  • Andreas Agung Nugroho Universitas Negeri Semarang
  • Dani Saputra Universitas Negeri Semarang
  • Dienda Dwi Octavianie Rienanda Universitas Negeri Semarang
  • Albert Gustafo Universitas Negeri Semarang
  • Sarai Enita Universitas Sebelas Maret
  • I Wayan Adiyasa Universitas Negeri Yogyakarta

DOI:

https://doi.org/10.62951/jpm.v2i3.2162

Keywords:

Electric, Installation, Programming, SMK, Vehicle

Abstract

This community service program was implemented to overcome the limited technical capacity of teachers and students at SMK Negeri Jambu in mastering the installation and programming of battery-based electric vehicles, which is a crucial skill in preparing competent human resources for the rapidly evolving green vehicle industry. The program specifically aimed to enhance participants’ knowledge and skills in several key areas, including the installation of electric motor control systems, management of battery energy, and maintenance of essential electric vehicle components. To achieve these goals, the activities were carried out using a blended method that integrated lectures, demonstrations, and direct hands-on practice, supported by continuous mentoring and systematic evaluation. In addition, QR Code–based learning resources were incorporated to provide participants with quick and efficient access to digital instructional materials, allowing for more flexible and independent learning. The evaluation results revealed significant progress in both the theoretical understanding and practical abilities of the participants. They were able to demonstrate improvements not only in operating and maintaining electric vehicle systems but also in identifying problems and performing troubleshooting independently. These findings suggest that the program effectively contributed to building sustainable competencies for teachers and students, equipping them with relevant skills aligned with the needs of the green automotive industry, while also promoting technological adaptation and innovation in vocational education.

References

Adityowati, P., Krisnadewi, A., & Armunanto, R. (2022). Indonesia's nickel resources: Strategic position in global battery supply chain. Journal of Energy Resources Technology, 144(8), 082301.

Advanced Manufacturing Institute. (2024). Simulation-based learning in vocational education: A comprehensive analysis. Journal of Technical Education, 45(3), 123–145.

Ahmad, F., Prastowo, T., & Sari, N. (2023). Challenges in vocational education adaptation for electric vehicle technology in Indonesia. International Journal of Vocational Education, 12(3), 45–62.

Environmental Education Research. (2024). Green technology education and community impact: A longitudinal study. Environmental Learning Quarterly, 31(2), 78–95.

Gaikindo. (2023). Indonesian automotive industry data 2023. Gabungan Industri Kendaraan Bermotor Indonesia.

Garcia, M., & Rodriguez, L. (2024). Cost-effective simulation tools for electric vehicle education. International Journal of Automotive Education, 28(4), 234–251.

International Labour Organization. (2024). Green jobs and vocational training: Global trends and outcomes (ILO Technical Report). International Labour Organization.

Kemendikbud Ristek. (2022). Roadmap revitalisasi pendidikan vokasi 2021–2025. Kementerian Pendidikan, Kebudayaan, Riset, dan Teknologi.

Kementerian Energi dan Sumber Daya Mineral. (2021). Grand design pengembangan kendaraan listrik berbasis baterai untuk transportasi jalan. Kementerian ESDM.

Kementerian Lingkungan Hidup dan Kehutanan. (2022). Enhanced nationally determined contribution Republic of Indonesia. KLHK.

Kumar, A., & Patel, S. (2024). QR code integration in technical education: Enhancing mobile learning experiences. Educational Technology Research, 42(1), 56–72.

Nugroho, A. T. B., Huda, K., Kriswanto, K., Cahyanto, S. E., & Priyanto, K. (2025). Pengembangan media pembelajaran flipbook materi alat ukur dasar-dasar teknik mesin. Panthera: Jurnal Ilmiah Pendidikan Sains dan Terapan, 5(3), 747–757. https://doi.org/10.36312/panthera.v5i3.566

Observasi Lapangan. (2024). Kondisi infrastruktur pembelajaran teknologi kendaraan listrik di SMK Negeri 1 Jambu. Tim Peneliti.

Prasetyo, D., & Wibowo, A. (2024). Readiness of vocational schools in facing electric vehicle technology transformation. Vocational Education Research Journal, 8(2), 78–95.

Priyanto, K., Haniel, H., & Hidayah, F. N. (2022). Peningkatan kompetensi otomasi bagi siswa program keahlian teknik mesin SMK YP Colomadu. Abdi Masya, 3(2), 55–61. https://doi.org/10.52561/abma.v3i2.331

Priyanto, K., Kurniadi, N., Baihaqi, S. B. F., Gojandra, F. P. L., Kristiawan, R. B., Cahyanto, S. E., & Enita, S. (2024). Peningkatan kompetensi di bidang otomasi industri bagi siswa SMK jurusan teknik pemesinan. Panggung Kebaikan: Jurnal Pengabdian Sosial, 1(4), 152–160. https://doi.org/10.62951/panggungkebaikan.v1i4.802

Sari, M., & Wijaya, D. (2023). Policy framework for electric vehicle development in Indonesia: A comprehensive analysis. Asian Policy Review, 15(4), 234–251.

Smith, R., & Johnson, K. (2024). Industry-school partnerships in the energy transition era. Vocational Education Review, 39(2), 112–128.

Sudira, P. (2023). Transformasi pendidikan vokasi dalam era industri 4.0. UNY Press.

Suyanto, E., & Jihad, A. (2023). Community service model for electric vehicle technology integration in vocational schools. Journal of Community Engagement, 15(4), 112–128.

UNESCO Technical and Vocational Education and Training. (2024). Sustainability frameworks for TVET programs: Global best practices. UNESCO Publishing.

Wardana, I. M., Suryanto, B., & Pratama, A. (2024). Human resource development strategy for electric vehicle industry in Indonesia. Indonesian Journal of Technology Management, 9(1), 23–38.

Wibisono, G., & Priyanto, K. (2020). Kontrol dan monitor sistem otomasi automatic water treatment system berbasis PLC menggunakan HMI Weintek MT8071ip. Teknika, 6(4), 149–156.

Wilson, J., Thompson, A., & Davis, C. (2024). Environmental awareness through green technology education in vocational schools. Journal of Sustainable Education, 16(3), 189–206.

World Bank. (2024). Digital transformation in vocational education: Trends and recommendations (World Bank Education Report). World Bank Publications.

Zhang, L., Chen, W., & Liu, Y. (2024). Practical training effectiveness in electric vehicle technology programs. Applied Engineering Education, 33(2), 167–184.

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Published

2025-09-24

How to Cite

Ninda Kurniadi, Septian Eko Cahyanto, Alfian Ardhiansyah, Ajeng Rahma Sudarni, Kaleb Priyanto, Andreas Agung Nugroho, … I Wayan Adiyasa. (2025). Enhancing Competence in Battery-Based Electric Vehicle Installation and Programming at SMK Negeri Jambu. Jurnal Pelayanan Masyarakat, 2(3), 117–127. https://doi.org/10.62951/jpm.v2i3.2162

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Vol. 2 No. 3 (2025): September :Jurnal Pelayanan Masyarakat

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