Seite - 240 - in Emerging Technologies for Electric and Hybrid Vehicles

Energies 2016,9, 410 3. Yilmaz,M.;Krein,P.T.Reviewof the impactofvehicle-to-grid technologiesondistributionsystemsand utility interfaces. IEEETrans. PowerElectron. 2013,28, 5673–5689. [CrossRef] 4. Lai,C.M.;Lin,Y.C.;Lee,D.S.Studyandimplementationofa two-phase interleavedbidirectionalDC/DC converter forvehicleanddc-microgridsystems.Energies2015,8, 9969–9991. [CrossRef] 5. Takeda,T.;Miyoshi,H.;Yukita,K.;Goto,Y.; Ichiyanagi,K.Power interchangebytheDCbus inmicrogrids. InProceedingsof the IEEEInternationalConferenceonDCMicrogrids,Atlanta,GA,USA,7–10June2015; pp.135–137. 6. Wunder,B.;Ott,L.;Kaiser, J.;Han,Y.;Fersterra,F.;Marz,M.Overviewofdifferent topologiesandcontrol strategies forDCmicro grids. In Proceedings of the IEEE InternationalConference onDCMicrogrids, Atlanta,GA,USA,7–10 June2015;pp.349–354. 7. Hu,K.W.; Liaw,C.M. Incorporatedoperation control ofDCmicrogrid and electric vehicle. IEEETrans. Ind.Electron. 2016,63, 202–215. [CrossRef] 8. Du,Y.;Lukic,S.; Jacobson,B.;Huang,A.Reviewofhighpower isolatedbi-directionalDC-DCconverters forPHEV/EVDCcharging infrastructure. InProceedingsof the IEEEEnergyConversionCongressand Exposition,Phoenix,AZ,USA,17–22September2011;pp.553–560. 9. Zhao,B.;Song,Q.;Liu,W.;Sun,Y.Overviewofdual-active-bridgeisolatedbidirectionalDC-DCconverterfor high-frequency-linkpower-conversionsystem. IEEETrans. PowerElectron. 2014,29, 4091–4106. [CrossRef] 10. Wai,R.J.;Liaw, J.J.High-efficiency-isolatedsingle-inputmultiple-outputbidirectional converter. IEEETrans. PowerElectron. 2015,30, 4914–4930. [CrossRef] 11. Du,Y.;Zhou,X.;Bai,S.;Lukic,S.;Huang,A.Reviewofnon-isolatedbi-directionalDC-DCconverters for plug-inhybridelectricvehiclechargestationapplicationatmunicipalparkingdecks. InProceedingsof the IEEEAppliedPowerElectronicsConferenceandExposition,PalmSprings,CA,USA,21–25February2010; pp.1145–1151. 12. Wai,R.J.;Duan,R.Y.High-efficiencybidirectionalconverter forpowersourceswithgreatvoltagediversity. IEEETrans. PowerElectron. 1997,22, 1986–1996. [CrossRef] 13. Wai,R.J.;Duan,R.Y.; Jheng,K.H.High-efficiencybidirectionalDC-DCconverterwithhigh-voltagegain. IETPowerElectron. 2012,5, 173–184. [CrossRef] 14. Yang,L.S.;Liang,T.J.AnalysisandimplementationofanovelbidirectionalDC-DCconverter. IEEETrans. Ind. Electron. 2012,59, 422–434. [CrossRef] 15. Jiang,L.;Mi,C.;Li,S.;Zhang,M.;Zhang,X.;Yin,C.Anovelsoft-switchingbidirectionalDC-DCconverter withcoupled inductors. IEEETrans. Ind.Appl. 2013,49, 2730–2740. [CrossRef] 16. Hsieh,Y.P.;Chen, J.F.;Yang,L.S.;Wu,C.Y.;Liu,W.S.High-conversion-ratiobidirectionalDC-DCconverter withcoupled inductor. IEEETrans. Ind. Electron. 2014,61, 210–222. [CrossRef] 17. Liang, T.J.; Liang, H.H.; Chen, S.M.; Chen, J.F.; Yang, L.S. Analysis, design, and implementation of a bidirectionaldouble-boostDC-DCconverter. IEEETrans. Ind.Appl. 2014,50, 3955–3962. [CrossRef] 18. Chen,L.R.; Chu,N.Y.;Wang,C.S.; Liang,R.H.Designof a reflex-basedbidirectional converterwith the energyrecoveryfunction. IEEETrans. Ind. Electron. 2008,55, 3022–3029. [CrossRef] 19. Han,D.;Noppakunkajorn, J.; Sarlioglu,B.Comprehensiveefficiency,weight,andvolumecomparisonof SiC-andSi-basedbidirectionalDC-DCconverters forhybridelectricvehicles. IEEETrans.Veh. Technol. 2014, 63, 3001–3010. [CrossRef] 20. Jin,K.;Yang,M.;Ruan,X.;Xu,M.Three-levelbidirectional converter for fuel-cell/batteryhybridpower system. IEEETrans. Ind. Electron. 2010,57, 1976–1986. [CrossRef] 21. Monge,S.B.;Alepuz,S.;Bordonau, J.Abidirectionalmultilevelboost-buckDC-DCconverter. IEEETrans. PowerElectron. 2011,26, 2172–2183. [CrossRef] 22. Lin,C.C.;Yang,L.S.;Wu,G.W.Studyofanon-isolatedbidirectionalDC-DCconverter. IETPowerElectron. 2013,6, 30–37. [CrossRef] 23. Ardi, H.; Ahrabi, R.R.; Ravadanegh, S.N. Non-isolated bidirectional DC-DC converter analysis and implementation. IETPowerElectron. 2014,7, 3033–3044. [CrossRef] 24. Kabalo,M.; Paire, D.; Blunier, B.; Bouquain,D.; Simoes,M.G.; Miraoui, A. Experimental validation of high-voltage-ratiolowinput-current-rippleconvertersforhybridfuelcellsupercapacitorsystems. IEEETrans. Veh. Technol. 2012,61, 3430–3440. [CrossRef] 25. Lai,C.M.;Yang,M.J.Ahigh-gain three-portpowerconverterwith fuel cell, battery sourcesandstacked output forhybridelectricvehiclesandDC-microgrids.Energies2016,9, 180. [CrossRef] 240