CPC

Cheol-Hwan Kim, Changkyu Bai, Sang-Won Lee, Eun-Ha Park, and Minsung Kim, Three-leg active bridge

based bidirectional resonant converter using hybrid Si/SiC switches, IEEE Trans. Power Electron. (Accepted)

(2022 IF: 6.7, Ranking: 41/275, JCR < 15.1%)

Hamid Raheem, Tsegaab Alemayehu Wagaye, Jin-Woo Jung, and Minsung Kim, Highly efficient and

cost-effective dual quasi-resonant bidirectional DC/DC converter, IEEE Trans. Ind. Electron. (Accepted)

(2022 IF: 7.7, Ranking: 4/63, JCR < 5.6%)

Jae-Woong Park, Tsegaab Alemayehu Wagaye, Hamid Raheem, Yitong Li, Jinjun Liu, and Minsung Kim, Highly efficient single

power-conversion resonant DC/AC converter without output filter, IEEE Trans. Ind. Electron. (Accepted)

(2022 IF: 7.7, Ranking: 4/63, JCR < 5.6%)

Ji-Ho Choi, Muhammad Mubeen Khan, Su-Hyeong Kim, Han-Ho Choi, and Minsung Kim, Highly efficient asymmetric boost

half-bridge diode-clamped DC/DC converter under wide input voltage range, IEEE Trans. Ind. Electron. 71(7): 6986-6999, Jul. 2024

(2022 IF: 7.7, Ranking: 4/63, JCR < 5.6%)

Changkyu Bai and Minsung Kim, Cyclic modulation of active-clamped single power-conversion

AC-DC converter for self-loss balancing, IEEE Trans. Ind. Inform. 20(4): 5899-5913, Apr. 2024

(2022 IF: 12.3, Ranking: 2/65, JCR < 2.3%)

Muhammad Mubeen Khan and Minsung Kim, Highly reliable diode-clamped resonant DC/DC converter for

overloaded automotive applications, IEEE Trans. Transp. Electrif. 10(1): 911-924, Mar. 2024

(2022 IF: 7.0, Ranking: 37/275, JCR < 13.3%)

Minsung Kim and Sang-Won Lee, High-voltage gain ripple-free resonant DC/DC converter

using active voltage-quadrupler, IEEE Trans. Ind. Electron. 71(3): 2429 - 2442, Mar. 2024

(2022 IF: 7.7, Ranking: 4/63, JCR < 5.6%)

Changkyu Bai and Minsung Kim, Single power-conversion active clamped AC/DC converter

employing Si/SiC hybrid switch, IEEE Trans. Ind. Electron. 71(2): 1616-1630, Feb. 2024

(2022 IF: 7.7, Ranking: 4/63, JCR < 5.6%)

Bilal Abdul Basit, Minsung Kim, and Jin-Woo Jung, Improved duty compensation control-based bidirectional resonant DC-DC converter

with reduced input-current ripple for battery energy storage systems, IEEE Trans. Ind. Inform. 19(11): 11192-11204, Nov. 2023

(2021 IF: 11.648, Ranking: 3/65, JCR < 1.83%)

Myung-Hwan Kim, Jae-Woong Park, and Minsung Kim, Bridgeless filterless neutral-point-clamped resonant AC/DC converter,

 IEEE Trans. Ind. Electron. 70(9): 8895-8906, Sep. 2023

(2021 IF: 8.162, Ranking: 3/64, JCR < 3.91%)

Tsegaab Alemayehu Wagaye, Hyun-Sam Jung, and Minsung Kim, Highly-efficient and cost-effective ripple-free resonant NPC

DC/DC converter, IEEE Trans. Ind. Electron. 70(8): 8087-8097, Aug. 2023

(2021 IF: 8.162, Ranking: 3/64, JCR < 3.91%)

Ji-Ho Choi, Muhammad Mubeen Khan, Cheol-Hwan Kim and Minsung Kim, High step-up current-fed diode-clamped resonant converter

for overloaded fuel-cell vehicles, IEEE Trans. Power Electron. 38(8): 9780-9792, Aug. 2023

(2021 IF: 5.967, Ranking: 44/276, JCR < 15.76%)

Sangoh Kim, Junseong Cho, Jong-Woo. Kim, Minsung Kim, and Byeongcheol Han, Triple-Mode wide-input range resonant

DC/DC converter, IEEE Trans. Power Electron. 38(6): 7385-7397, Jun. 2023

(2021 IF: 5.967, Ranking: 44/276, JCR < 15.76%)

      Jong-Won Lim, Changkyu Bai, Tsegaab Alemayehu Wagaye, Ji-Ho Choi, and Minsung Kim, Highly reliable push-pull

resonant DC/DC converter for medium-power applications, IEEE Trans. Ind. Electron. 70(2):1342-1355, Feb. 2023

(2021 IF: 8.162, Ranking: 3/64, JCR < 3.91%)

W. Uddin, T. Alemayehu, and M. Kim, Quasi-single-stage current-fed resonant AC/DC converter

having improved heat distribution, IEEE Power Electron. 37(11):13499-13512, Nov. 2022

(2021 IF: 5.967, Ranking: 44/276, JCR < 15.76%)

    S. Jo, N. Kim, M. Kim, M. Kim, and M. Kim, Highly efficient full-bridge resonant AC/DC converter using

T-type voltage doubler, IEEE Trans. Ind. Electron. 69(11):11076-11087, Nov. 2022

(2021 IF: 8.162, Ranking: 3/64, JCR < 3.91%)

 J. Hassan, J. Lim, T. Alemayehu, B. Han, S. Lee, M. Kim, and M. Kim, Highly efficient quasi-single-stage

AC/DC converter employing bidirectional switch, IEEE Trans. Transp. Electrif. 8(2):2746-2757, Jun. 2022

(2021 IF: 6.519, Ranking: 37/276, JCR < 13.22%)

C. Bai and M. Kim, Bidirectional resonant converter with minimized switching loss over wide operating

voltage range, IEEE Trans. Emerg. Sel. Topics Power Electron. 10(3):2975-2988, Jun. 2022

  (2021 IF: 5.462, Ranking: 52/276, JCR < 18.66%)

J. Hassan, C. Bai, H. Seok, J. Lim, S. Ahn, and M. Kim, Highly efficient current-fed half-bridge resonant

converter for pulse power applications, IEEE Power Electron. 37(3):3192-3204, Mar. 2022

(2021 IF: 5.967, Ranking: 44/276, JCR < 15.76%)

B. Han, S. Jo, M. Kim, A. Nguyen, and J. Lai, Improved odd-harmonic repetitive control scheme

for Cuk-derived inverter, IEEE Power Electron., 37(2):1496-1508, Feb. 2022

(2021 IF: 5.967, Ranking: 44/276, JCR < 15.76%)

B. Han, J. Lai, and M. Kim, Down-sampled repetitive controller for grid-connected Cuk

CCM inverter, IEEE Trans. Emerg. Sel. Topics Power Electron. 10(1):1125-1137, Feb. 2022

(2021 IF: 5.462, Ranking: 52/276, JCR < 18.66%)

H. Seok, A. Junyent-Ferre, B. Kwon, and M. Kim, Bridgeless push-pull resonant AC/DC converter 

featuring balanced switching loss distribution, IEEE Trans. Ind. Electron., 69(2):1443-1453, Feb. 2022

(2021 IF: 8.162, Ranking: 3/64, JCR < 3.91%)

B. Han, S. Wi, and M. Kim, Combined feedback-feedforward control of Cuk CCM converter for

achieving fast transient response, IET Circ. Device & Syst., 16(1):71-80, Jan. 2022

(2021 IF: 1.269, Ranking: 231/276 , JCR < 83.51%)

S. Lee, M. Kim and Y. Cho, Slam control method for improving light load efficiency of boost converter,

 IEEE Power Electron. 37(1):42-48, Jan. 2022

(2021 IF: 5.967, Ranking: 44/276, JCR < 15.76%)

 J. Lim, J. Hassan, and M. Kim, Bidirectional soft switching push-pull resonant converter

over wide range of battery voltages, IEEE Trans. Power Electron., 36(11):12251-12267, Nov. 2021

(2021 IF: 5.967, Ranking: 44/276, JCR < 15.76%)

J. Hassan, C. Bai, J. Lim, and M. Kim, High step-up quasi-resonant converter featuring minimized

switching loss over wide input voltage range, IEEE Trans. Ind. Electron. 68(11):10784-10795, Nov. 2021

(2021 IF: 8.162, Ranking: 3/64, JCR < 3.91%)

​

J. Kim, S. Ryu, M. Kim, and J. Jung, Triple-mode isolated resonant buck-boost converter over

wide input voltage range for residential application, IEEE Trans. Ind. Electron.,68(11):11087-11099, Nov. 2021

(2021 IF: 8.162, Ranking: 3/64, JCR < 3.91%)

N. Kim, S. Jo, B. Han, H. Choi, and M. Kim, Highly efficient bidirectional current-fed

resonant converter over wide voltage gain range, IEEE Trans. Ind. Electron., 68(11):10913-10927, Nov. 2021

(2021 IF: 8.162, Ranking: 3/64, JCR < 3.91%)

H. Seok and M. Kim, Dual-path series-resonant single-stage dc-ac converter operating

in hybrid mode, IEEE Trans. Emerg. Sel. Topics Power Electron. 9(5):5941-5953, Oct. 2021

(2021 IF: 5.462, Ranking: 52/276, JCR < 18.66%)

​

                N. Kim, B. Han, S. Jo and M. Kim, High-voltage-gain soft-switching converter employing bidirectional switch

for fuel-cell vehicles, IEEE Trans. Veh. Technol., 70(9):8731-8743, Sep. 2021

(2021 IF: 6.239, Ranking: 32/276, JCR < 13.59%)

S. Jo, H. Seok, and M. Kim, Dual-mode resonant flyback single  power-conversion

inverter, IEEE Trans. Ind. Electron., 68(7):5776-5787, Jul. 2021

(2020 IF: 8.236, Ranking: 2/64, JCR < 2.34%)

 B. Han, S. Jo, N. Kim, J. Lai, and M. Kim, Bridgeless hybrid-mode Zeta-based inverter:

dynamic modeling and control, IEEE Trans. Power Electron, 36(6):7233-7249, Jun. 2021

(2020 IF: 6.153, Ranking: 31/273, JCR < 11.17%)

B. Han, C. Bai, J. Lai, and M. Kim, Control strategy of single-phase hybrid-mode Cuk inverter for

LVRT capability, IEEE Trans. Emerg. Sel. Topics Power Electron. 8(4):3917-3932, Dec. 2020

(2019 IF: 4.728, Ranking: 41/266, JCR < 15.23%)

S. Son, H. Seok, and M. Kim, Removal of instantaneous reactive power from high-conversion-ratio bidirectional

resonant converter with balanced capacitor voltage,  IEEE Trans. Power Electron. 35(11):11916-11929, Nov. 2020 

(2019 IF: 6.373, Ranking: 22/266, JCR < 8.08%)

        S. Kim, C. Bai, H. Seok, H. Choi, and M. Kim, Bridgeless triple-mode resonant AC-DC converter:

   Dynamic modeling and controls, IEEE Trans. Ind. Electron., 67(6):4921-4933, Jun. 2020

(2019 IF: 7.515, Ranking: 1/64, JCR < 0.78%)

H. Seok, A. Junyent-Ferre, H. Cha, and M. Kim, Reactive power elimination for high conversion-ratio  

      bidirectional resonant converter, IEEE Trans. Power Electron., 35(4):3740-3753, Apr. 2020

 (2019 IF: 6.373, Ranking: 22/266, JCR < 8.08%)

          ​C. Bai, B. Han, B. Kwon, and M. Kim, Highly efficient bidirectional series-resonant DC/DC converter

            over wide range of battery voltages, IEEE Trans. Power Electron., 35(4):3636-3650, Apr. 2020

(2019 IF: 6.373, Ranking: 22/266, JCR < 8.08%)

B. Han, J. Lai, and M. Kim, Bridgeless Cuk-derived single power conversion inverter with

reactive power capability, IEEE Trans. Power Electron., 35(3):2629-2645, Mar. 2020

(2019 IF: 6.373, Ranking: 22/266, JCR < 8.08%)

S. Kim, B. Kwon, and M. Kim, Highly-efficient bridgeless dual-mode resonant single

power-conversion AC-DC converter, IEEE Trans. Power Electron., 34(11):10700-10709, Nov. 2019

(2018 IF: 7.224, Ranking: 16/266, JCR < 5.83%)

Y. Wang, Y. Li, A. Junyent-Ferre, and M. Kim, H5+ converter: A bidirectional AC-DC converter with

DC-fault-blocking and self-pre-charge capabilities, IEEE Trans. Power Electron., 34(11):10619-10634, Nov 2019 

(2018 IF: 7.224, Ranking: 16/266, JCR < 5.83%)

S. Son, O. Montes, A. Junyent-Ferre, and M. Kim, High step-up resonant DC/DC converter with balanced 

capacitor voltage for distributed generation systems, IEEE Trans. Power Electron. 34(5):4375-4387, May. 2019 

(2018 IF: 7.224, Ranking: 16/266, JCR < 5.83%)

S. Wi and M. Kim, A precise control strategy of dual-mode flyback

dc/dc converter, IET Power Electron. 12(2): 220-227, Feb. 2019

(2018 IF: 2.839, Ranking: 101/266, JCR < 37.78%)

O. A. Montes, S. Son, J. Kim, J. Lee, and M. Kim, Duty-ratio feed-forward controller design to minimize the capacitor 

effect of the flyback inverter under light load condition, IEEE Trans. Power Electron. 33(12):10979-10989, 2018

(2017 IF: 6.812, Ranking: 14/260, JCR < 5.19%).

S. Kim, B. Kim, B. Kwon, and M. Kim, An active voltage-doubler rectifier

based hybrid resonant dc/dc converter for wide-input-range thermo-electric power

generation, IEEE Trans. Power Electron., 33(11):9470-9481, 2018

(2017 IF: 6.812, Ranking: 14/260, JCR < 5.19%).

H. Seok, B. Han, B. Kwon, M. Kim, High step-up resonant DC/DC converter with ripple-free input

current for renewable energy systems, IEEE Trans. Ind. Electron., 65(11):8543-8552, 2018

(2017 IF: 7.05, Ranking: 1/61, JCR < 0.82%).

C. Bai, B. Han, M. Kim, Current-fed dual-half-bridge converter directly connected with half-bridge

inverter for residential photovoltaic system, Solar Energy,174:108-120, 2018

(2017 IF: 4.374, Ranking: 23/97, JCR < 23.2%).

B. Han, C. Bai, J. Lee, and M. Kim, Repetitive controller of capacitor-less current-fed dual-half-bridge

converter for grid-connected fuel-cell system, IEEE Trans. Ind. Electron., 65(10):7841-7855, 2018

(2017 IF: 7.05, Ranking: 1/61, JCR < 0.82%).

B. Han, J. Lai, and M. Kim, Dynamic modeling and controller design of dual-mode Cuk inverter in

grid-connected PV/TE applications, IEEE Trans. Power Electron., 33(10):8887-8904, 2018

(2017 IF: 6.812, Ranking: 14/260, JCR < 5.19%).

M. Kim, Precise tracking of highly nonlinear phase-shift full-bridge series resonant inverter via

iterative learning control, Control Eng. Pract., 79:78-90, 2018

(2017 IF: 2.616, Ranking: 22/61, JCR < 35.25%).

B. Han, J. Lee, and M. Kim, Repetitive controller with phase-lead compensation for

Cuk CCM inverter, IEEE Trans. Ind. Electron., 65(3):2356–2367, 2018

(2017 IF: 7.05, Ranking: 1/61, JCR < 0.82%).

S. Wi, J. Lee, and M. Kim, Exponentially stable Lyapunov function based controller for flyback

CCM converter, IEEE Trans. Ind. Electron., 65(2):1213–1225, 2018

(2017 IF: 7.05, Ranking: 1/61, JCR < 0.82%).

H. Kim, J. Lee, and M. Kim, Down-sampled iterative learning controller for flyback CCM inverter,

IEEE Trans. Ind. Electron., 65(1):510–520, 2018

(2017 IF: 7.05, Ranking: 1/61, JCR < 0.82%).

S. Lee and M. Kim, Flyback CCM inverter for AC module applications: iterative learning control

and convergence analysis, Int. J. Control, 90(12):2677–2691, 2017

(2016 IF: 2.208, Ranking: 26/60, JCR < 42.5%).

H. Kim, J. Lee, J. Lai, and M. Kim, Iterative learning controller with multiple phase-lead compensation

for dual-mode flyback inverter, IEEE Trans. Power Electron., 32(8):6468– 6480, 2017

(2016 IF: 7.151, Ranking: 13/262, JCR < 4.77%).

H. Kim and M. Kim, Duty-ratio feedforward controller design for single-stage flyback CCM inverter,

Electron. Lett., 52(25):2053–2055, 2016

(2015 IF: 0.854, Ranking: 170/257, JCR < 65.95%).

S. Kim, S. Lee, J. Lee, and M. Kim, Dual-mode flyback inverters in grid-connected photovoltaic

systems, IET Renew. Power Gen., 10(9):1402–1412, 2016

(2015 IF: 1.562, Ranking: 53/88, JCR < 59.66%).

M. Kim, H. Joe, and S. Yu, Dual-loop robust controller design for autonomous underwater vehicle

under unknown environmental disturbances, Electron. Lett., 52(5):350–352, 2016

(2015 IF: 0.854, Ranking: 170/257, JCR < 65.95%).

S. Lee, W. Cha, B. Kwon, and M. Kim, Discrete-time repetitive control of flyback CCM inverter

for PV power applications, IEEE Trans. Ind. Electron., 63(2):976–984, 2016

(2015 IF: 6.383, Ranking: 1/59, JCR < 0.85%).

J. Kim, H. Joe, S. Yu, J. Lee, and M. Kim, Time delay controller design for position control of autonomous

underwater vehicle under disturbances, IEEE Trans. Ind. Electron., 63(2):1052–1061, 2016

(2015 IF: 6.383, Ranking: 1/59, JCR < 0.85%).

M. Kim, H. Joe, J. Kim, and S. Yu, Integral sliding mode controller for autonomous underwater vehicle

in the presence of unknown disturbances, Int. J. Control, 88(10):2055– 2065, 2015

(2014 IF: 1.654, Ranking: 24/58, JCR < 40.52%).

M. Kim, T. Kuc, H. Kim, and J. Lee, An adaptive learning controller for MIMO uncertain feedbackM. Kim

linearizable nonlinear systems, Nonlinear Dyn, 80(1-2):999–1016, 2015

(2014 IF: 2.849, Ranking: 7/130, JCR < 5%).

H. Joe, M. Kim, and S. Yu, Second-order sliding mode controller for autonomous underwater vehicle

in the presence of unknown disturbances. Nonlinear Dyn, 78(1):183– 196, 2014

(2013 IF: 2.419, Ranking: 15/128, JCR < 11.33%).

M. Kim, S. Moon, C. Na, D. Lee, Y. Kueon, and J. Lee. Control of mold level in continuous casting based

on a disturbance observer. J. Process Control, 21(7):1022–1029, 2011

(2010 IF: 1.655, Ranking: 13/60, JCR < 20.83%).

B. You, M. Kim, D. Lee, J. Lee, and J. Lee. Iterative learning control of molten steel level in a continuous

casting process. Control Eng. Pract., 19(3):232–242, 2011

(2010 IF: 1.418, Ranking: 18/60, JCR < 29.17%).

M. Kim, S. Moon, C. Na, B. You, Y. Kueon, D. Lee, J. Lee, and J. Lee. Molten steel level controller based on disturbance

observer with time-delay compensation. ISIJ Int., 51(2):256–261, 2011

(2010 IF: 0.745, Ranking: 25/76, JCR < 32.24%).

B. You, T. Sim, M. Kim, D. Lee, J. Lee and J. Lee. Molten steel level control based on an adaptive fuzzy

estimator in a continuous caster. ISIJ Int., 49(8):1174–1183, 2009

(2008 IF: 0.817, Ranking: 20/63, JCR < 30.95%)