Journal article
Electrical Vehicle Batteries Testing in a Distribution Network Using Sustainable Energy
EV technologies are still relatively new and under strong development. Many different designs and choices of technologies have been pursued by the automotive OEMs, battery industry and EV research centers. Although some standardized solutions are being promoted and becoming a new trend, there is an outstanding need for common platforms and sharing of knowledge and core technologies.
This paper presents the development of a test platform, including three Li-ion batteries designed for EV applications and three associated bi-directional power converters, for testing impacts on different advanced loadings of EV batteries. The aim of the tests has been to study the impact of smart charging and fast charging on the power system, on the battery state of health and degradation, and to find out the limitations of the batteries for a Smart Grid.
The paper outlines the advantages and disadvantages of both tests in terms of regulation of the aggregated local power, power capacity and the power exchange with the grid.
Language: | English |
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Publisher: | IEEE |
Year: | 2014 |
Pages: | 1033-1042 |
ISSN: | 19493061 and 19493053 |
Types: | Journal article |
DOI: | 10.1109/TSG.2014.2299064 |
Battery Management Unit (BMU) Battery electric vehicle Communication, Networking and Broadcast Technologies Computing and Processing Distributed Energy Resources (DER) Power, Energy and Industry Applications SDG 7 - Affordable and Clean Energy Smart-grid State of charge (SOC)
Batteries Degradation EV technologies Inverters Power systems System-on-chip Temperature measurement Testing associated bidirectional power converters automotive OEM battery management unit (BMU) battery powered vehicles distributed energy resources (DER) distribution network electrical vehicle batteries testing lithium-ion batteries local power regulation power capacity power convertors power exchange secondary cells smart grid smart-grid state of charge sustainable energy