A model predictive control system for a hybrid battery-ultracapacitor power source B Hredzak, VG Agelidis, M Jang IEEE Transactions on Power Electronics 29 (3), 1469-1479, 2013 | 499 | 2013 |
A single-phase grid-connected fuel cell system based on a boost-inverter M Jang, M Ciobotaru, VG Agelidis IEEE transactions on power electronics 28 (1), 279-288, 2012 | 183 | 2012 |
A minimum power-processing-stage fuel-cell energy system based on a boost-inverter with a bidirectional backup battery storage M Jang, VG Agelidis IEEE Transactions on Power Electronics 26 (5), 1568-1577, 2010 | 173 | 2010 |
Performance of medium-voltage DC-bus PV system architecture utilizing high-gain DC–DC converter H Choi, M Ciobotaru, M Jang, VG Agelidis IEEE Transactions on Sustainable Energy 6 (2), 464-473, 2015 | 119 | 2015 |
Analysis and control of a single-phase-inverter–zigzag-transformer hybrid neutral-current suppressor in three-phase four-wire systems S Choi, M Jang IEEE Transactions on Industrial Electronics 54 (4), 2201-2208, 2007 | 93 | 2007 |
Common mode noise analysis for cascaded boost converter with silicon carbide devices T Kim, D Feng, M Jang, VG Agelidis IEEE Transactions on Power Electronics 32 (3), 1917-1926, 2016 | 91 | 2016 |
A single-stage fuel cell energy system based on a buck--boost inverter with a backup energy storage unit M Jang, M Ciobotaru, VG Agelidis IEEE transactions on power electronics 27 (6), 2825-2834, 2011 | 74 | 2011 |
Design and implementation of digital control in a fuel cell system M Jang, M Ciobotaru, VG Agelidis IEEE Transactions on Industrial Informatics 9 (2), 1158-1166, 2012 | 44 | 2012 |
A reduced-rating hybrid filter to suppress neutral current harmonics in three-phase four-wire systems S Choi, M Jang IEEE transactions on industrial electronics 51 (4), 927-930, 2004 | 40 | 2004 |
A boost-inverter-based, battery-supported, fuel-cell sourced three-phase stand-alone power supply M Jang, VG Agelidis IEEE transactions on Power Electronics 29 (12), 6472-6480, 2014 | 36 | 2014 |
Zero‐current‐switching bidirectional interleaved switched‐capacitor DC–DC converter: analysis, design and implementation H Choi, M Jang, VG Agelidis IET Power Electronics 9 (5), 1074-1082, 2016 | 24 | 2016 |
High‐gain soft‐switching interleaved switched‐capacitor DC–DC converter with phase‐shedding technique H Choi, M Jang, J Pou IET Power Electronics 10 (9), 1013-1022, 2017 | 23 | 2017 |
Grid-connected fuel cell system based on a boost-inverter with a battery back-up unit M Jang, M Ciobotaru, VG Agelidis 8th International Conference on Power Electronics-ECCE Asia, 1637-1644, 2011 | 22 | 2011 |
Practical implementation of a silicon carbide‐based 300 kHz, 1.2 kW hard‐switching boost‐converter and comparative thermal performance evaluation T Kim, M Jang, VG Agelidis IET Power Electronics 8 (3), 333-341, 2015 | 20 | 2015 |
Performance evaluation of interleaved high‐gain converter configurations H Choi, M Jang, M Ciobotaru, VG Agelidis IET Power Electronics 9 (9), 1852-1861, 2016 | 18 | 2016 |
Ultra‐fast MHz range driving circuit for SiC MOSFET using frequency multiplier with eGaN FET T Kim, M Jang, VG Agelidis IET Power Electronics 9 (10), 2085-2094, 2016 | 15 | 2016 |
A single-stage three-phase fuel cell system based on a boost inverter with a battery back-up unit M Jang, M Ciobotaru, VG Agelidis 2012 Twenty-Seventh Annual IEEE Applied Power Electronics Conference and …, 2012 | 14 | 2012 |
Grid-interfaced fuel cell energy system based on a boost-inverter with a bi-directional back-up battery storage M Jang, VG Agelidis 2010 IEEE Energy Conversion Congress and Exposition, 4499-4506, 2010 | 14 | 2010 |
Design and implementation of a 200kHz single-phase boost-inverter using silicon carbide semiconductors M Jang, T Kim, VG Agelidis IECON 2015-41st Annual Conference of the IEEE Industrial Electronics Society …, 2015 | 12 | 2015 |
Current status of silicon carbide power devices and their application in photovoltaic converters T Kim, M Jang, VG Agelidis 2013 IEEE ECCE Asia Downunder, 555-559, 2013 | 12 | 2013 |