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Energies 2017,10, 1217
(c)
Figure56.Converterarrangementsasshownin[94]: (a)Cascadedconnection; (b)Parallel connection;
(c)Fuelcellwithbatterybackup.Adaptedfrom[94].
Figure 57. Low frequency AC-High frequency AC-DC converter, also called single-stage
converter [113].
Figure58.LowfrequencyAC-DC-HighfrequencyAC-DCconverter,alsocalledtwo-stageconverter.
Adaptedfrom[113].
Table24.ConverterswithEVapplicationdisplayingtheirkeyfeaturesanduses inEVs.
Configuration Reference Operation KeyFeatures ApplicationinEV
Buckconverter Bose [92] Stepdown Canoperate in
continuousor
discontinuousmode Sendingpower to
thebattery
Buck-Boostconverter Bose [92] Stepupandstepdown Twoquadrantoperation
ofchopper Regenerative
action
InterleavedBoost
PFCconverter Williamsonetal.
[46] Stepupwithpower
factorcorrection Relativelysmall input
EMIfilter Charging
Bridgeless/Dual
BoostPFCConverter Williamsonetal.
[46] Stepupwithpower
factorcorrection Doesnot requirerectifier
inputbridge Charging
ZVSFBConverter
withCapacitive
OutputFilter Williamsonetal.
[46] AC-DCconversion Zerovoltageswitching Charging
47
Emerging Technologies for Electric and Hybrid Vehicles
- Titel
- Emerging Technologies for Electric and Hybrid Vehicles
- Herausgeber
- MDPI
- Ort
- Basel
- Datum
- 2017
- Sprache
- englisch
- Lizenz
- CC BY-NC-ND 4.0
- ISBN
- 978-3-03897-191-7
- Abmessungen
- 17.0 x 24.4 cm
- Seiten
- 376
- Schlagwörter
- electric vehicle, plug-in hybrid electric vehicle (PHEV), energy sources, energy management strategy, energy-storage system, charging technologies, control algorithms, battery, operating scenario, wireless power transfer (WPT)
- Kategorie
- Technik