DESAIN RUANG UJI KENDARAAN LISTRIK DITINJAU DARI KARAKTERISTIK JENIS ALAT PENGUJIAN KENDARAAN LISTRIK DI BPLJSKB

PUTRA, I GEDE LISTIAWAN ANANDA MAS (2025) DESAIN RUANG UJI KENDARAAN LISTRIK DITINJAU DARI KARAKTERISTIK JENIS ALAT PENGUJIAN KENDARAAN LISTRIK DI BPLJSKB. Diploma thesis, POLITEKNIK TRANSPORTASI DARAT BALI.

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Abstract

Perkembangan kendaraan listrik di Indonesia semakin pesat seiring dengan
target pemerintah terkait percepatan elektrifikasi transportasi. Hal ini menuntut
kesiapan fasilitas pengujian yang memenuhi standar teknis dan aspek keselamatan
kerja (K3). Saat ini, sebagian besar balai pengujian kendaraan masih berfokus pada
kendaraan konvensional dan belum memiliki desain ruang uji yang dikhususkan
untuk kendaraan listrik. Sedangkan, pengujian kendaraan listrik memiliki risiko
kelistrikan yang tinggi, sehingga diperlukan ruang uji dengan tata letak dan fasilitas
yang sesuai standar.
Penelitian ini bertujuan merancang desain ruang uji kendaraan listrik di
Balai Pengujian Laik Jalan dan Sertifikasi Kendaraan Bermotor (BPLJSKB),
dengan memperhatikan karakteristik alat pengujian dan standar keselamatan kerja.
Metode penelitian yang digunakan meliputi observasi langsung di BPLJSKB,
wawancara dengan teknisi penguji, serta studi literatur terhadap regulasi yang
berlaku seperti Permenhub No. 44 Tahun 2020, SNI yang berkaitan dengan
kebutuhan ruang uji. Penelitian ini mengidentifikasi lima alat uji utama yaitu
Precision DC Voltmeter, Resistance Meter, Withstanding Insulation Tester,
Insulation Tester, dan IPXXB/IPXXD. Hasil penelitian menunjukkan bahwa setiap
alat memiliki kebutuhan ruang dan prosedur pengujian yang spesifik, sehingga tata
letak perlu dirancang agar sesuai dengan alur kerja, ergonomi, dan aspek
keselamatan. Desain ruang uji dibuat menggunakan aplikasi Sketchup dengan alat
pemadam kebakaran, APD, serta demarkasi warna lantai sesuai standar SNI dan
ANSI. Kesimpulannya, desain ruang uji kendaraan listrik yang aman dan efisien
sangat diperlukan untuk mendukung pengujian yang profesional dan
meminimalkan risiko kerja.
Kata Kunci : Kendaraan listrik, ruang uji, alat pengujian, keselamatan kerja, desain,
BPLJSKB.

Item Type:	Thesis (Diploma)
Contributors:	Contribution Name Email UNSPECIFIED DWIPAYANA, ST,. M.M, M.T., ARIF DEVI UNSPECIFIED UNSPECIFIED PRADANA, S.T., M.Si., ADRIAN UNSPECIFIED
Uncontrolled Keywords:	The development of electric vehicles in Indonesia is rapidly accelerating in line with the government's target of accelerating the electrification of transportation. This requires testing facilities that meet technical standards and occupational safety and health (OSH) aspects. Currently, most vehicle testing centers still focus on conventional vehicles and do not have test rooms specifically designed for electric vehicles. However, testing electric vehicles involves high electrical risks, necessitating test rooms with layouts and facilities that comply with standards. This study aims to design a test room for electric vehicles at the Vehicle Testing and Certification Center (BPLJSKB), taking into account the characteristics of testing equipment and occupational safety standards. The research methods used include direct observation at BPLJSKB, interviews with testing technicians, and literature reviews of applicable regulations such as Ministry of Transportation Regulation No. 44 of 2020 and SNI standards related to testing room requirements. This study identified five main testing tools: Precision DC Voltmeter, Resistance Meter, Withstanding Insulation Tester, Insulation Tester, and IPXXB/IPXXD. The results showed that each tool has specific space requirements and testing procedures, so the layout must be designed to align with workflow, ergonomics, and safety aspects. The test room design was created using Sketchup software, incorporating fire extinguishers, personal protective equipment (PPE), and floor color demarcation in accordance with SNI and ANSI standards. In conclusion, a safe and efficient electric vehicle test room design is essential to support professional testing and minimize workplace risks. Keywords: Electric vehicles, test chambers, testing equipment, occupational safety, design, BPLJSKB.
Subjects:	T Technology > T Technology (General)
Depositing User:	- Poltrada Bali Kemenhub
Date Deposited:	09 Oct 2025 06:37
Last Modified:	09 Oct 2025 06:37
URI:	https://digilib.poltradabali.ac.id/id/eprint/384

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