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Energies 2017,10, 1217 Figure49. InterleavedZVSFBConverterwithVoltageDoubler [46]. Figure50.FullBridgeLLCResonantConverter.Adaptedfrom[46]. Balch et al., showed converter conﬁgurations that are used in different types of EVs in [42]. InFigure51,aconverterarrangement foraBEVisshown.AnAC-DCcharger isusedforchargingthe batterypackherewhilea two-quadrantDC-DCconverter isusedforpowerdelivery to theDCbus formthebatterypack. Thisparticularexample includedanultracapacitoraswell.Analmostsimilar arrangementwasshownin[42] forPHEVs(Figure52)whereabidirectionalDC-DCconverterwas usedbetweentheDCbusandthebatterypackto facilitateregeneration.Useof integratedconverter in PHEVisshowninFigure53. Figure54showsconverterarrangement foraPFCV; thisconﬁguration is quitesimilar tooneshownforBEV,but it containsanadditionalboostconverter toadjust thepower producedbythe fuelcell stack tobesent to theDCbus. 43

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Emerging Technologies for Electric and Hybrid Vehicles

Title: Emerging Technologies for Electric and Hybrid Vehicles
Editor: MDPI
Location: Basel
Date: 2017
Language: English
License: CC BY-NC-ND 4.0
ISBN: 978-3-03897-191-7
Size: 17.0 x 24.4 cm
Pages: 376
Keywords: 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)
Category: Technik