Test Device for Electric Vehicle Grid Integration

被引：0

作者：

Ledinger, Stephan ^{[1
]}

Reihs, David ^{[1
]}

Stahleder, Daniel ^{[1
]}

Lehfuss, Felix ^{[1
]}

机构：

[1] Austrian Inst Technol, Elect Energy Syst, Giefinggasse 2, A-1210 Vienna, Austria

来源：

2018 IEEE INTERNATIONAL CONFERENCE ON ENVIRONMENT AND ELECTRICAL ENGINEERING AND 2018 IEEE INDUSTRIAL AND COMMERCIAL POWER SYSTEMS EUROPE (EEEIC / I&CPS EUROPE) | 2018年

关键词：

Electric vehicle; electric vehicle supply equipment; AC and DC charging emulator; fast-charging; flexible laboratory; golden test device;

D O I：

暂无

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

A flexible laboratory infrastructure at the AIT SmartEST, called FlexEVELab, is used to test the AC and DC charging capabilities of electric vehicle and electric vehicle supply equipment. Two emulators, and a laboratory-wide communication layer are introduced. In combination, these make up an adaptive test environment, which is utilized to measure the electrical characteristics as well as the communication behaviour of a device under test according to the ISO 15118 and IEC 61851 standards. Various test cases are used to investigate the effects of a charging process on electric vehicle, electric vehicle supply equipment, and the power grid. Test data is presented to demonstrate the switching capabilities of the emulators a fast DC charging process at 960 V and 96 A.

引用

页数：5

共 50 条

[31] Three-level methodology for secure and efficient grid integration of electric vehicle
Calatayud-Marti, Pilar
Romero-Chavarro, Julian
Montagud-Aguar, Mario
Arcos-Usero, Lucia
Garcia-Pellicer, Marta
Quijano-Lopez, Alfredo
DYNA, 2021, 96 (03): : 264 - 269
[32] Integration of electric vehicle with smart grid using bidirectional SEPIC–zeta converter
P. M. Sneha Angeline
M. Newlin Rajkumar
Electrical Engineering, 2024, 106 : 2159 - 2174
[33] Modelling and control of a grid-connected AC microgrid with the integration of an electric vehicle
Akarne, Youssef
Essadki, Ahmed
Nasser, Tamou
Laghridat, Hammadi
CLEAN ENERGY, 2023, 7 (04): : 707 - 720
[34] Optimal Scheduling of Campus Microgrid Considering the Electric Vehicle Integration in Smart Grid
Nasir, Tehreem
Raza, Safdar
Abrar, Muhammad
Muqeet, Hafiz Abdul
Jamil, Harun
Qayyum, Faiza
Cheikhrouhou, Omar
Alassery, Fawaz
Hamam, Habib
SENSORS, 2021, 21 (21)
[35] Integration of IEC 61850 into a Vehicle-to-Grid System with Networked Electric Vehicles
Huang, Rui
Wang, Yubo
Shi, Wenbo
Yao, Daoyuan
Hu, Boyang
Chu, Chi-Cheng
Gadh, Rajit
2015 IEEE POWER & ENERGY SOCIETY INNOVATIVE SMART GRID TECHNOLOGIES CONFERENCE (ISGT), 2015,
[36] Cyber-Physical Device Authentication for the Smart Grid Electric Vehicle Ecosystem
Chan, Aldar C. -F.
Zhou, Jianying
IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, 2014, 32 (07) : 1509 - 1517
[37] GIS-based modelling of electric-vehicle-grid integration in a 100% renewable electricity grid
Li, Mengyu
Lenzen, Manfred
Wang, Dai
Nansai, Keisuke
APPLIED ENERGY, 2020, 262
[38] Smart vehicle-to-grid integration strategy for enhancing distribution system performance and electric vehicle profitability
Abdelfattah, Wael
Abdelhamid, Ahmed Sayed
Hasanien, Hany M.
Rashad, Basem Abd- Elhamed
ENERGY, 2024, 302
[39] Modeling electric vehicle charging station expansion with an integration of renewable energy and Vehicle-to-Grid sources
Quddus, Md Abdul
Kabli, Mohannad
Marufuzzaman, Mohammad
TRANSPORTATION RESEARCH PART E-LOGISTICS AND TRANSPORTATION REVIEW, 2019, 128 : 251 - 279
[40] Analysis of the Integration of an Electric Bus and an Electric Vehicle with Grid-Connected PV Systems and a Storage System
Vidal de Oliveira, Aline Kirsten
Ferreira Gomes, Amanda Mendes
Goulart, Vitor Volpato
Montenegro, Alexandre de Albuquerque
Ruther, Ricardo
PROCEEDINGS OF THE ISES SOLAR WORLD CONFERENCE 2019 AND THE IEA SHC SOLAR HEATING AND COOLING CONFERENCE FOR BUILDINGS AND INDUSTRY 2019, 2019, : 1510 - 1517

← 1 2 3 4 5 →