STANDARTS AND NORMS IN THE SYSTEM OF TECHNICAL SERVICE FOR ELECTRIC VEHICLES
DOI:
https://doi.org/10.47390/ts-v3i12y2025N18Keywords:
Electric vehicle, technical maintenance, standards, norms, ISO 6469, ISO 17409, IEC 61851, battery, power, electrical safety, service, diagnostics, certification, technical inspection, charging stations, energy efficiency.Abstract
This article analyzes the modern requirements for the maintenance system of electric vehicles, technical indicators, safety standards and diagnostic principles formed on the basis of international and national standards. Today, unlike vehicles with internal combustion engines, it is shown that the energy system of electric vehicles, electrical safety, high-voltage components, batteries, inverters and power electronics require special approaches to servicing. The article outlines the foundations of the need to organize an electric vehicle service infrastructure in Uzbekistan, standardize technical diagnostic processes and provide certification in servicing based on international standards such as ISO 6469, ISO 17409, IEC 61851, SAE J1772, UNECE R100, R136. It also outlines technical requirements for thermal stability of batteries, electrical safety in the power transmission system, protection levels, and ensuring the safety of the insulation system during servicing. It was also shown that it has practical importance in developing the electric vehicle market in Uzbekistan, improving the regulatory and legal framework for technical maintenance, and forming an environmentally sustainable transport system.
References
1. Asqarov, Ixtiyor Baxtiyorovich. (2023). Elektromobillar texnik xizmat ko‘rsatish tizimini standartlashtirish va diagnostika usullarini takomillashtirish. Jizzax Politexnika Instituti Ilmiy Axborotnomasi, 14(3), 101–110.
2. Ahmedov, Sh. B. (2021). Avtomobil transportida innovatsion texnologiyalar va xavfsizlik masalalari. Toshkent: TDTU nashriyoti.
3. Shermuxamedov, U. Z. (2020). Avtomobil servis markazlari uchun texnik reglamentlar va standartlarni ishlab chiqishning nazariy asoslari. O‘zbekiston Texnik Taraqqiyot Jurnali, 5(4), 15–26.
4. Kosimov, Bakhtiyor Akhmatjonovich (2025) "COMPARATIVE ANALYSIS OF GAS AND MECHANICAL EMISSIONS FROM ELECTRIC CARS AND INTERNAL COMBUSTION ENGINE VEHICLES,"Technical science and innovation: Vol. 2025: Iss. 2, Article 1. DOI:https://doi.org/10.59048/2181-1180.1719
5. ISO 6469-1:2015. Electrically propelled road vehicles — Safety specifications. Geneva: International Organization for Standardization, 2015.
6. ISO 17409:2018. Electrically propelled road vehicles — Conductive power transfer — Safety requirements. Geneva: ISO, 2018.
7. International Organization for Standardization (ISO). (2015). ISO 6469-1: Electrically propelled road vehicles — Safety specifications. Geneva: ISO.
8. International Organization for Standardization (ISO). (2018). ISO 17409: Electrically propelled road vehicles — Conductive power transfer — Safety requirements. Geneva: ISO.
9. Society of Automotive Engineers (SAE). (2017). SAE J1772: Electric vehicle conductive charge coupler. SAE International.
10. United Nations Economic Commission for Europe (UNECE). (2021). UN Regulation No. 100 — Electric power-trained vehicles safety requirements. Geneva: UNECE.
11. Ehsani, M., Gao, Y., Longo, S., & Ebrahimi, K. (2021). Modern Electric, Hybrid Electric, and Fuel Cell Vehicles. CRC Press.
This work is licensed under a 