A Review on Power Electronics Technologies for Electric Mobility

Concerns about greenhouse gas emissions are a key topic addressed by modern societies worldwide. As a contribution to mitigate such effects caused by the transportation sector, the full adoption of electric mobility is increasingly being seen as the main alternative to conventional internal combusti...
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Gespeichert in:

Autor*in:	Joao L. Afonso [verfasserIn] Luiz A. Lisboa Cardoso [verfasserIn] Delfim Pedrosa [verfasserIn] Tiago J. C. Sousa [verfasserIn] Luis Machado [verfasserIn] Mohamed Tanta [verfasserIn] Vitor Monteiro [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2020

Schlagwörter:	power electronics electric mobility electrical power grid battery charging systems unified traction and battery charging systems inductive wireless power transfer

Übergeordnetes Werk:	In: Energies - MDPI AG, 2008, 13(2020), 23, p 6343
Übergeordnetes Werk:	volume:13 ; year:2020 ; number:23, p 6343

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/en13236343

Katalog-ID:	DOAJ025395254

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authorswithroles_txt_mv	Joao L. Afonso @@aut@@ Luiz A. Lisboa Cardoso @@aut@@ Delfim Pedrosa @@aut@@ Tiago J. C. Sousa @@aut@@ Luis Machado @@aut@@ Mohamed Tanta @@aut@@ Vitor Monteiro @@aut@@
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author	Joao L. Afonso
spellingShingle	Joao L. Afonso misc power electronics misc electric mobility misc electrical power grid misc battery charging systems misc unified traction and battery charging systems misc inductive wireless power transfer misc Technology misc T A Review on Power Electronics Technologies for Electric Mobility
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topic_title	A Review on Power Electronics Technologies for Electric Mobility power electronics electric mobility electrical power grid battery charging systems unified traction and battery charging systems inductive wireless power transfer
topic	misc power electronics misc electric mobility misc electrical power grid misc battery charging systems misc unified traction and battery charging systems misc inductive wireless power transfer misc Technology misc T
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title	A Review on Power Electronics Technologies for Electric Mobility
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title_auth	A Review on Power Electronics Technologies for Electric Mobility
abstract	Concerns about greenhouse gas emissions are a key topic addressed by modern societies worldwide. As a contribution to mitigate such effects caused by the transportation sector, the full adoption of electric mobility is increasingly being seen as the main alternative to conventional internal combustion engine (ICE) vehicles, which is supported by positive industry indicators, despite some identified hurdles. For such objective, power electronics technologies play an essential role and can be contextualized in different purposes to support the full adoption of electric mobility, including on-board and off-board battery charging systems, inductive wireless charging systems, unified traction and charging systems, new topologies with innovative operation modes for supporting the electrical power grid, and innovative solutions for electrified railways. Embracing all of these aspects, this paper presents a review on power electronics technologies for electric mobility where some of the main technologies and power electronics topologies are presented and explained. In order to address a broad scope of technologies, this paper covers road vehicles, lightweight vehicles and railway vehicles, among other electric vehicles.
abstractGer	Concerns about greenhouse gas emissions are a key topic addressed by modern societies worldwide. As a contribution to mitigate such effects caused by the transportation sector, the full adoption of electric mobility is increasingly being seen as the main alternative to conventional internal combustion engine (ICE) vehicles, which is supported by positive industry indicators, despite some identified hurdles. For such objective, power electronics technologies play an essential role and can be contextualized in different purposes to support the full adoption of electric mobility, including on-board and off-board battery charging systems, inductive wireless charging systems, unified traction and charging systems, new topologies with innovative operation modes for supporting the electrical power grid, and innovative solutions for electrified railways. Embracing all of these aspects, this paper presents a review on power electronics technologies for electric mobility where some of the main technologies and power electronics topologies are presented and explained. In order to address a broad scope of technologies, this paper covers road vehicles, lightweight vehicles and railway vehicles, among other electric vehicles.
abstract_unstemmed	Concerns about greenhouse gas emissions are a key topic addressed by modern societies worldwide. As a contribution to mitigate such effects caused by the transportation sector, the full adoption of electric mobility is increasingly being seen as the main alternative to conventional internal combustion engine (ICE) vehicles, which is supported by positive industry indicators, despite some identified hurdles. For such objective, power electronics technologies play an essential role and can be contextualized in different purposes to support the full adoption of electric mobility, including on-board and off-board battery charging systems, inductive wireless charging systems, unified traction and charging systems, new topologies with innovative operation modes for supporting the electrical power grid, and innovative solutions for electrified railways. Embracing all of these aspects, this paper presents a review on power electronics technologies for electric mobility where some of the main technologies and power electronics topologies are presented and explained. In order to address a broad scope of technologies, this paper covers road vehicles, lightweight vehicles and railway vehicles, among other electric vehicles.
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title_short	A Review on Power Electronics Technologies for Electric Mobility
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