RETRACTED: Two-loop control of isolated bidirectional dual active bridge DC–DC converter for EV with enhanced response

Onar OC Kobayashi J Erb DC , et al. A bidirectional high-power-quality grid interface with a novel bidirectional noninverted buck–boost converter for PHEVs. IEEE Trans Veh Technol 2012; 61: 2018–2032.

Zahid ZU Dalala ZM Chen R , et al. Design of bidirectional DC–DC resonant converter for vehicle-to-grid (V2G) applications. IEEE Trans Transp Electrific 2015; 1: 232–246.

Jalbrzykowski S Bogdan A Citko T. A dual full-bridge resonant class-E bidirectional DC–DC converter. IEEE Trans Ind Electron 2011; 58: 3879–3883.

Xu A Xie S. A multipulse-structure-based bidirectional PWM converter for high-power applications. IEEE Trans Power Electron 2009; 24: 1233–1242.

Park IG Kim SI. A thyristor phase-controlled voltage-source converter with bidirectional powerflow capability. IEEE Trans Ind Appl 1998; 34: 1147–1155.

Dusmez S Khaligh A Hasanzadeh A. A zero-voltage-transition bidirectional DC/DC converter. IEEE Trans Ind Electron 2015; 62: 3152–3162.

Zhao B Song Q Liu W. Power characterization of isolated bidirectional dual-active-bridge DC–DC converter with dual-phase-shift control. IEEE Trans Power Electron 2012; 27: 4172–4176.

Pires VF Foito D Cordeiro A. DC–DC converter with quadratic gain and bidirectional capability for batteries/super capacitors. IEEE Trans Ind Appl 2018; 54: 274–285.

Park J Choi S. Design and control of a bidirectional resonant DC–DC converter for automotive engine/battery hybrid power generators. IEEE Trans Power Electron 2014; 29: 3748–3757.

Xiao H Xie S. A ZVS bidirectional DC–DC converter with phase-shift plus PWM control scheme. IEEE Trans Power Electron 2008; 23: 813–823.

Di Napoli A Crescimbini F Rodo S , et al. Luca Solero. Multiple input dc–dc power converter for fuel-cell powered hybrid vehicles. 33rd Annual EEE Power Electronics Specialists Conference, 2002 5–vol. 4, pp. 1685–1690. IEEE.

Caricchi F Crescimbini F Capponi FG , et al. Study of bidirectional buck–boost converter topologies for application in electrical vehicle motor drives. APEC '98 Thirteenth Annual Applied Power Electronics Conference and Exposition, Anaheim, CA, USA, vol. 1, pp. 287–293.

Schupbach RM Balda JC. Comparing dc–dc converters for power management in hybrid electric vehicles. Published in: IEEE International Electric Machines and Drives Conference, 2003. IEMDC'03. vol. 3, pp.1369–1374. Conference Location: Madison, WI, USA, USA

Yu D Xiaohu Z Sanzhong B , et al. Review of nonisolated bi-directional dc–dc converters for plug-in hybrid electric vehicle charge station application at municipal parking decks. In: Proc. IEEE APEC expo, February 2010, pp.1145–1151.

He P Khaligh A. Comprehensive analyses and comparison of 1 kW isolated DC–DC converters for bidirectional EV charging systems. IEEE Trans Transp Electrific 2017; 3: 147–156.