Page - 77 - in Emerging Technologies for Electric and Hybrid Vehicles

Energies 2017,10, 1217 49. Nishijima,K.;Sakamoto,H.;Harada,K.APWMcontrolledsimpleandhighperformancebatterybalancing system. InProceedingsof the IEEEPowerElectronicsSpecialistsConference,Galway, Ireland,23 June2000; Volume1,pp.517–520. 50. Cassani,P.A.;Williamson,S.S.Design, testing, andvalidationofa simplifiedcontrol scheme foranovel plug-inhybridelectricvehiclebatterycellequalizer. IEEETrans. Ind. Electron. 2010,57, 3956–3962. [CrossRef] 51. Lee,Y.S.;Cheng,M.W.Intelligentcontrolbatteryequalizationforseriesconnectedlithium-ionbatterystrings. IEEETrans. Ind. Electron. 2005,52, 1297–1307. [CrossRef] 52. Lee,Y.S.;Cheng,M.W.;Yang,S.C.;Hsu,C.L. Individualcell equalizationforseriesconnected lithium-ion batteries. IEICETrans. Commun. 2006,E89-B, 2596–2607. [CrossRef] 53. 2017NissanLEAF®ElectricCarSpecs.Availableonline: https://www.nissanusa.com/electric-cars/leaf/ versions-specs/(accessedon8May2017). 54. ModelSSpecifications|Tesla.Availableonline: https://www.tesla.com/support/model-s-specifications (accessedon8May2017). 55. WhyWe Still Don’t Have Better Batteries—MIT Technology Review. Available online: https://www. technologyreview.com/s/602245/why-we-still-dont-have-better-batteries/(accessedon8May2017). 56. Ribeiro, P.F.; Johnson, B.K.; Crow,M.L.; Arsoy,A.; Liu, Y. Energy storage systems for advancedpower applications.Proc. IEEE2001,89, 1744–1756. [CrossRef] 57. Bartley, T. Ultracapacitors and batteries for energy storage in heavy-duty hybrid-electric vehicles. In Proceedings of the 22nd International Battery Seminar & Exhibit, Fort Lauderdale, FL, USA, 14–17March2005. 58. Gigaom|HowUltracapacitorsWork(andWhyTheyFallShort).Availableonline: https://gigaom.com/ 2011/07/12/how-ultracapacitors-work-and-why-they-fall-short/(accessedon8May2017). 59. Singh,A.;Karandikar,P.B.Abroadreviewondesulfationof lead-acidbattery forelectrichybridvehicle. Microsyst. Technol. 2017,23, 1–11. [CrossRef] 60. Chiu,H.J.;Lin,L.W.AbidirectionalDC-DCconverter for fuelcellelectricvehicledrivingsystem. IEEETrans. PowerElectron. 2006,21, 950–958. [CrossRef] 61. Mahlia,T.M.I.; Saktisahdan,T.J.; Jannifar,A.;Hasan,M.H.;Matseelar,H.S.C.Areviewofavailablemethods anddevelopmentonenergy storage; technologyupdate. Renew. Sustain. EnergyRev. 2014, 33, 532–545. [CrossRef] 62. Bolund,B.;Bernhoff,H.;Leijon,M.Flywheelenergyandpowerstoragesystems.Renew. Sustain. EnergyRev. 2007,11, 235–258. [CrossRef] 63. Luo, X.;Wang, J.; Dooner,M.; Clarke, J. Overviewof current development in electrical energy storage technologies and the applicationpotential inpower systemoperation. Appl. Energy 2015, 137, 511–536. [CrossRef] 64. Chan,C.C.;Chau,K.T.Anoverviewofpowerelectronics inelectricvehicles. IEEETrans. Ind. Electron. 1997, 44, 3–13. [CrossRef] 65. Chan,C.C.;Chau,K.T.; Jiang, J.Z.;Xia,W.A.X.W.;Zhu,M.;Zhang,R.Novelpermanentmagnetmotordrives forelectricvehicles. IEEETrans. Ind. Electron. 1996,43, 331–339. [CrossRef] 66. Chan, C.C.; Chau, K.T.; Yao, J. Soft-switching vector control for resonant snubber based inverters. In Proceedings of the IEEE International Conference Industrial Electronics, New Orleans, LA, USA, 14November1997;pp.605–610. 67. Chan, C.C.; Jiang, J.Z.; Chen,G.H.; Chau,K.T. Computer simulation and analysis of a newpolyphase multipolemotordrive. IEEETrans. Ind. Electron. 1993,40, 570–576. [CrossRef] 68. Chan, C.C.; Jiang, J.Z.; Chen,G.H.;Wang, X.Y.; Chau, K.T.Anovel polyphasemultipole square-wave permanentmagnetmotordrive forelectricvehicles. IEEETrans. Ind.Appl. 1994,30, 1258–1266. [CrossRef] 69. Chan,C.C.; Jiang, J.Z.;Xia,W.;Chan,K.T.Novelwiderangespeedcontrolofpermanentmagnetbrushless motordrives. IEEETrans. PowerElectron. 1995,10, 539–546. [CrossRef] 70. Jose, C.P.; Meikandasivam, S. AReview on the Trends andDevelopments inHybrid Electric Vehicles. In InnovativeDesignandDevelopmentPractices inAerospaceandAutomotiveEngineering; Springer: Singapore, 2017;pp.211–229. 71. Chan,C.C.;Chau,K.T.MordenElcetricVehicleTechnology;OxfordUniversityPress, Inc.:NewYork,NY,USA, 2001;pp.122–133. 77