``Current-StressOptimized Switching Strategy of Isolated Bidirectional DC–DCConverter With Dual-Phase-ShiftControl ''
vol . 60 , no . 10 , pp . 4458-4467[2013]
[30] J. Amit Kumar, A. Rajapandian, “PWM Control of Dual Active Bridge: Comprehensive Analysis and Experimental Verification”, IEEE Transactions on Power Electronics, Vol. 26, No. 4, pp. 1215-1227, April 2011
[29] K. Florian, K. Johann W., “ Efficiency-Optimized High- Current Dual Active Bridge Converter for Automotive Applications”, IEEE Transactions on Industrial Electronics, Vol. 59, No. 7, pp. 2745-2760, July 2012
[26] T. Nadia Mei Lin, A. Takahiro, A. Hirofumi, “ Design and Performance of a Bidirectional Isolated DC–DC Converter for a Battery Energy Storage System”, IEEE Transactions on Power Electronics, Vol. 27, No. 3, pp. 1237-1248, March 2012
SwitchingControl Strategy to Minimize Dual Active BridgeConverter Losses ''
vol . 24 , no . 7 , pp . 1826- 1838[2009]
Solid-State Transformer Architecture Using AC–AC Dual-Active-BridgeConverter
Vol . 60 , No . 9 , pp . 3720-3730 ,
Review of Recent Developments
Vol . 4 , No . 1 , pp . 45-50[2014]
PowerCharacterization of Isolated Bidirectional Dual-Active-Bridge DC–DCConverter With Dual-Phase-ShiftControl ''
vol . 27 , no . 9 , pp . 4172-4176[2012]
Power-Loss Breakdown of a 750-V 100-kW 20kHz Bidirectional Isolated DC–DCConverter Using SiCMOSFET/ SBD Dual Modules
Vol . 51 , No . 1 , pp . 420-428 ,
Optimized Design of Bi-Directional Dual Active Bridge Converter for Low-Voltage Battery Charger
Vol . 59 , No . 7 , pp . 2745-2760[2012]
Modulation Strategy to Operate the Dual Active Bridge DC–DC Converter Under Soft Switching in the Whole Operating Range
Vol . 26 , No . 4 , pp . 1228- 1236[2011]
Modeling of Soft-Switching Losses of IGBTs in High-Power High-Efficiency Dual-Active-Bridge DC/DC Converters
Vol . 60 , No . 2 , pp . 587-597 ,[2013]
Modeling and Optimization of Bidirectional Dual Active Bridge DC–DC Converter Topologies
[1978]
Generalized Average Modeling of Dual Active Bridge DC–DC Converter
Vol . 27 , No . 4 , pp . 2078-2084[2012]
Fundamental Duty Modulation of Dual-Active-Bridge Converter for Wide-Range Operation
[2016]
Extended-Phase-Shift Control of Isolated Bidirectional DC–DC Converter for Power Distribution in Microgrid
Vol . 27 , No . 11 , pp . 4667-4680[2012]
Enhanced Modulation Strategy for a Three-Phase Dual Active Bridge— Boosting Efficiency of an Electric VehicleConverter
Vol . 28 , No . 12 , pp . 5499- 5507
Enhanced Modulation Strategy for a Three-Phase Dual Active Bridge— Boosting Efficiency of an Electric Vehicle Converter
Vol . 28 , No . 12 , pp . 5499- 5507[2013]
Eliminate Reactive Power and Increase System Efficiency of Isolated Bidirectional Dual-Active-Bridge DC–DCConverters Using Novel Dual-Phase-ShiftControl ''
vol . 23 , no . 6 , pp . 2905-2914[2008]
Dynamic model of a dual active bridge suitable for solid state transformers
pp . 350- 355[2016]
Dual Active Bridge Converter with PWM Control In Solid State Transformer Application
[2013]
An Integrated Three-Port Bidirectional DC– DC Converter for PV Application on a DC Distribution System
Vol . 28 , No . 10 , pp . 4612-4624[2013]
Accurate Small-Signal Model for the Digital Control of an Automotive Bidirectional Dual Active Bridge
Vol . 24 , No . 12 , pp . 2756-2768[2009]
A Power Efficiency Improvement Technique for a Bidirectional Dual Active Bridge DC–DCConverter at Light Load ''
vol . 50 , no . 6 , pp . 4047-4055[2014]
A Bidirectional Isolated DC–DC Converter as a Core Circuit of the Next-Generation Medium- Voltage Power Conversion System
Vol . 22 , No . 2 , pp . 535-542
A Bidirectional DC–DC Converter for an Energy Storage System With Galvanic Isolation
Vol . 22 , No . 6 , pp . 2299- 2306[2007]
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듀얼-액티브-브리지 컨버터의 고효율 변조 기법 = High Efficiency Modulation Strategy with Dual-Active-Bridge Converter'
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