Kibum Park 

연구분야 > 친환경 모빌리티 기술전임교수 (en)

Office

F305

Tel

1261

Summary

Research Interest

– Electric vehicle charging infrastructure
– Grid integration of renewables
– Optimization of power electronics

Education

B.S., M.S., Ph.D. in KAIST EE, in 2003, 2005, 2010

Biography

Ki-Bum Park was born in Korea in 1981. He received B.S., M.S., and Ph.D. degrees in electrical engineering from the Korea Advanced Institute of Science and Technology (KAIST), Daejeon, Korea, in 2003, 2005, and 2010, respectively.
After 9 years of industry experience in ABB Switzerland, he is currently with KAIST, South Korea, as an Associate Professor. His research interests include power conversion system for transportation electrification and renewable integration in association with system-level optimization of power electronics. He has authored/coauthored more than 90 papers including one-third in peer-reviewed journals.

Publication

CONFERENCE PROCEEDING

[1] J. Song, J. Kim, S. Kim, Y. Cho, and K.-B. Park, “Analysis on effect of increasing motor voltage from 690-V to 1000-V on 1.5-MW motor drive design for large-scale electric propulsion ship,” PEMC, 2022.

[2] J. Kim, J. Song, and K.-B. Park, “A comparison of DPWM and inverter loss energy based FCS-MPC for IPMSM,” PEMC, 2022.

[3] X. Yang, K. Wang, U. Kim, Z. Zhang, and K.-B. Park, “A weighting factor design approach for FCS-MPC based on PSO and K-means algorithm,” ECCE, 2022.

[4] X. Yang, K. Wang, U. Kim, Z. Zhang, and K.-B. Park, “A computationally efficient FCS-MPC imitator for grid-tied three-level NPC power converters based on sequential artificial neural network,” ECCE, 2022.

[5] X. Yang, K. Wang, Y. Lyu, and K.-B. Park, “A shallow neural network based FCS-MPC imitator for three-level NPC converters,” ICESI, 2022.

[6] K. Wang, X. Yang, and K.-B. Park, “FPGA-based spread spectrum modulation for grid-connected photovoltaic inverter,” ICESI, 2022.

[7] J. Kim, J. Song, K, Choi, and K.-B. Park, “Comparative analysis of inverter efficiency and WTHD based on PI-SVPWM and FCS-MPC with a strictly fixed switching frequency,” ICESI, 2022.

[8] J. Song, J. Kim, and K.-B. Park, “Comparative analysis of inverter topologies for 800-V electric vehicle propulsion system,” ICESI, 2022.

[9] C.-Y Chu, S. Huh, S. Choi, J.-H. Park, S. Ahn, S.-G. Lee, K.-B. Park, “Wireless power transfer system design for electric vehicle charging considering a wide range of coupling coefficient variation depending on the coil misalignment,” in Proc. ICEMS, 2021.

[10] K.-B. Park, and S. Pettersson, “Three-phase peak current control with LCL filter,” in Proc. ECCE-Asia, 2021.

[11] K.-B. Park, F. Kieferndorf, R. M. Burkart, and B. Agostini, “Optimization of 1-MW PV inverter with 1.7-kV SiC MOSFET module,” in Proc. WiPDA-Asia, 2020, pp 235-238.

[12] K.-B. Park, P. Klaus, and R. M. Burkart, “Spread spectrum modulation for LCL filter design,” in Proc. Ee, 2019. (Invited paper)

[13] R. M. Burkart, A. Bahmani, F. Kieferndorf, F. Grecki, K.-B. Park, and F. Canales, “In-depth analysis of layout impact on current sharing of hard-paralleled 700A 1.7kV SiC LinPak power modules,” in Proc. Ee, 2019.

[14] K.-B. Park, “One-phase modulation without dc link control for three-phase rectifier with LCL filter,” in Proc. ICPE, 2019, pp. 464-469.

[15] K.-B. Park, R. M. Burkart, B. Agostini, and T. Soeiro, “Application of 1.7-kV 700-A SiC LinPak to optimize LCL grid-tied converters,” in Proc. ICPE, 2019, pp. 127-133.

[16] K.-B. Park, “The age of optimization in power electronics,” in Proc. PCIM-Europe, 2019, pp. 2098-2105. (Keynote speech)

[17] K.-B. Park and R. M. Burkart, “Filter hardware optimization of grid-tied converter: LCL vs. LLCL filters,” in Proc. ICRERA, 2018.

[18] K.-B. Park, F. Kieferndorf, U. Drofenik, S. Pettersson, and F. Canales, “Optimization of LCL filter with intercell transformer for interleaved voltage source converters,” in Proc. IEEE IECON, 2017, pp. 1375-1380.

[19] T. Soeiro, K.-B. Park, and F. Canales, “High voltage photovoltaic system implementing Si/SiC-based active neutral-point-clamped converter,” in Proc. IEEE IECON, 2017, pp. 1220-1225.

[20] K.-B. Park, F. Kieferndorf, U. Drofenik, S. Pettersson, and F. Canales, “Weight minimization of LCL filters for high power converters,” in Proc. IEEE ICPE, 2015.

[21] K.-B. Park, S. Pettersson, and F. Canales, “Auxiliary power supply for LV inverter with 1700 V SiC switch,” in Proc. IEEE IECON, 2013.

[22] K.-B. Park, D.-Y. Cho, and G.-W. Moon, “Coupled-inductor boost converter with simple resonant technique,” in Proc. IEEE IECON, 2013. ( Best paper in session )

[23] J.-H. Kim, K.-B. Park, D.-Y. Cho, and G.-W. Moon, “Voltage and current stress reduction in universal line input single-stage PFC AC/DC converter with voltage doubler for edge-lit LED backlight system,” in Proc. IMID, 2012.

[24] J.-W. Kim, I.-O. Lee, G.-W. Moon, and K.-B. Park, “Series input parallel output interleaved flyback converter with regenerative leakage inductance energy,” in Proc. IEEE ECCE-Asia, 2012, pp. 1347-1352.

[25] J.-H. Cho, K.-B. Park, J.-S. Park, G.-W. Moon, and M.-J. Youn, “Elimination of transformer magnetizing current offset for digitally controlled phase-shift full-bridge converter,” in Proc. IEEE ECCE-Asia, 2011, pp. 1323-1330.

[26] S. Moon, K.-B. Park, G.-W. Moon, and M.-J. Youn, “Analysis and design of active clamp forward dc-dc converter with asymmetric two transformers,” in Proc. IEEE ECCE-Asia, 2011. pp. 599-606. ( Best paper award, 3rd prize )

[27] B.-C. Kim, K.-B. Park, and G.-W. Moon, “LLC resonant converter with asymmetric PWM for hold-up time,” in Proc. IEEE ECCE-Asia, 2011, pp. 38-43.

[28] B.-C. Kim, K.-B. Park, and G.-W. Moon, “Sawtooth burst mode control with minimum peak current in stand-by operation of power supply,” in Proc. IEEE ECCE-Asia, 2011, pp. 474-479.

[29] S.-H. Park, K.-B. Park, H.-S. Kim, G.-W. Moon, and M.-J. Youn, “Cell-to-cell charge equalization converter using multi-winding transformer with reduced number of windings,” in Proc. IEEE ECCE-Asia, 2011, pp. 285-290.

[30] H.-S. Kim, K.-B. Park, H.-W. Seong, G.-W. Moon, M.-J. Youn, “Flyback battery equalizer with voltage doubler rectifier,” in Proc. IEEE ECCE-Asia, 2011, pp. 291-295.

[31] J.-B. Lee, K.-B. Park, H.-S. Kim, H.-W. Seong, G.-W. Moon, and M.-J. Youn, “ZVS half-bridge zeta converter with center-tap rectifier,” in Proc. IEEE ECCE-Asia, 2011, pp. 1606-1611.

[32] M.-Y. Kim, B.-C. Kim, K.-B. Park, G.-W. Moon, “LLC series resonant converter with auxiliary hold-up time compensation circuit,” in Proc. IEEE ECCE-Asia, 2011, pp. 628-633.

[33] K.-B. Park, G.-W. Moon, and M.-J. Youn, “High step-up boost converter integrated with voltage-doubler,” in Proc. IEEE ECCE, 2010, pp. 628-633.

[34] H.-S. Youn, K.-B. Park, H.-W. Seong, G.-W. Moon, and M.-J. Youn, “PWM positive buck-boost converter with reduced switching loss employing quasi-resonant operation,” in Proc. IEEE ECCE, 2010, pp. 3319-3326.

[35] K.-M. Cho, K.-B. Park, Y.-D. Kim, and G.-W. Moon, “A continuous current mode boost converter with modified flying capacitor lossless snubber,” in Proc. IEEE ECCE, 2010, pp. 2907-2912.

[36] H.-W. Seong, H.-S. Kim, K.-B. Park, G.-W. Moon, and M.-J. Youn, “Zero-voltage switching flyback-boost converter with voltage-doubler rectifier for high step-up applications, in Proc. IEEE ECCE, 2010, pp. 823-829.

[37] H.-S. Kim, H.-W. Seong, K.-B. Park, H.-S. Youn, G.-W. Moon, and M.-J. Youn, “Zero-voltage-switching interleaved two-switch forward converter with phase-shift control”, in Proc. IEEE ECCE, 2010, pp.3727-3732.

[38] K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “Non-isolated high step-up converter based on boost integrated half-bridge converter,” in Proc. INTELEC, 2009, PC13-3.

[39] B.-C. Kim, K.-B. Park, S.-W. Choi, and G.-W. Moon, “LLC series resonant converter with auxiliary circuit for hold-up time,” in Proc. INTELEC, 2009, PC10-3. ( Best paper award, 2nd prize )

[40] B.-H. Lee, M.-Y. Kim, C.-E. Kim, K.-B. Park, and G.-W. Moon, “Analysis of LLC resonant converter considering effects of parasitic components,” in Proc. INTELEC, 2009, PC12-3.

[41] Y.-D. Kim, C.-E. Kim, K.-M. Cho, K.-B. Park, and G.-W. Moon, “ZVS phase shift full bridge converter with controlled leakage inductance of transformer,” in Proc. INTELEC, 2009, PC16-3.

[42] K.-B. Park, B.-C. Kim, B.-H. Lee, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “Analysis and design of LLC resonant converter considering rectifier voltage oscillation,” in Proc. IEEE ECCE, 2009, pp.771-775.

[43] K.-B. Park, C.-E. Kim, D.-Y. Kim, G.-W. Moon, and M.-J. Youn, “Isolated ZVS two-transformer boost converter,” in Proc. IEEE ECCE, 2009, pp. 693-698.

[44] H.-W. Seong, K.-B. Park, G.-W. Moon, and M.-J. Youn, “Zero-voltage switching dual inductor-fed DC-DC converter for high power step-up applications,” in Proc. IEEE ECCE, 2009, pp. 699-706.

[45] H.-S. Kim, K.-B. Park, S.-H. Park, G.-W. Moon, and M.-J. Youn, “A new two-switch flyback battery equalizer with low voltage stress on the switches,” in Proc. IEEE ECCE, 2009, pp. 511-516.

[46] B.-C. Kim, K.-B. Park, and G.-W. Moon, “Analysis and design of two-phase LLC resonant converter considering load sharing,” in Proc. IEEE ECCE, 2009, pp. 1141-1144.

[47] B.-C. Kim, K.-B. Park, C.-E. Kim, and G.-W. Moon, “Load sharing characteristic of two-phase interleaved LLC resonant converter with parallel and series input structure,” in Proc. IEEE ECCE, 2009, pp. 750-753.

[48] Y.-D. Kim, C.-E. Kim, K.-M. Cho, K.-B. Park, and G.-W. Moon, “ZVS phase shift full bridge converter with separated primary winding (SPW),” in Proc. IEEE ECCE, 2009, pp. 484-489.

[49] K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “Three-switch active-clamp forward converter with reduced voltage stress,” in Proc. IEEE APEC, 2009, pp. 1390-1396.

[50] K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “Interleaved forward converter for high input voltage application with common active-clamp circuit and series rectifier,” in Proc. IEEE APEC, 2009. pp. 1440-1445.

[51] J.-H. Cho, K.-B. Park, G.-W. Moon, and M.-J. Youn, “A three-level PWM resonant converter with wide ZVS range employing hybrid structure,” in Proc. IEEE APEC, 2009, pp. 420-425.

[52] J.-H. Cho, K.-B. Park, G.-W. Moon, and M.-J. Youn, “A hybrid PWM resonant converter suitable for wide input variation,” in Proc. IEEE APEC, 2009, pp. 1504-1510.

[53] K.-B. Park, C.-E. Kim, B.-C. Kim, H.-S. Kim, G.-W. Moon, and M.-J. Youn, “Two-transformer current-fed converter with 0 to 100% switch duty range,” in Proc. IEEE PESC, 2008, pp 3981-3985.

[54] K.-B. Park, H.-W. Seong, H.-S. Kim, G.-W. Moon, and M.-J. Youn, “Integrated boost-sepic converter for high step-up applications,” in Proc. IEEE PESC, 2008, pp. 944-950.

[55] K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “Multi-level active-clamp forward converter with reduced voltage stress,” in Proc. IEEE PESC, 2008, pp. 938-943.

[56] H.-W. Seong, K.-B. Park, G.-W. Moon, and M.-J. Youn, “Novel dual inductor-fed DC/DC converter integrated with parallel boost converter,” in Proc. IEEE PESC, 2008, pp. 2125-2131.

[57] W.-J. Lee, K.-B. Park, T.-W. Heo, and G.-W. Moon, “Output inductor less phase shift full bridge converter with current stress reduction technique for server power application,” in Proc. IEEE PESC, 2008, pp. 2517-2522.

[58] Y.-D. Kim, K.-B. Park, C.-E. Kim, and G.-W. Moon, “Band-gap reference voltage control strategy for fuel cell hybrid vehicle,” in Proc. IEEE PESC, 2008, pp. 2574-2578.

[59] B.-H. Lee, C.-E. Kim, K.-B. Park, and G.-W. Moon, “A novel approach for link capacitor voltage problem in single-stage power-factor-correction (SS-PFC) AC/DC converter,” in Proc. IEEE PESC, 2008, pp. 2928-2933.

[60] B.-C. Kim, B.-H. Lee, K.-B. Park, C.-E. Kim, B.-W. Ryu, G.-W. Moon, and M.-J. Youn, “Adaptive link voltage variation (ALVV) control for high power density adapter,” in Proc. IEEE PESC, 2008, pp. 1022-1027.

[61] K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “New cost-effective PWM single-switch isolated converter,” in Proc. IEEE PESC, 2007, pp. 1715-1720.

[62] K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “Double-ended ZVS half-bridge zeta converter,” in Proc. IEEE PESC, 2007, pp. 2554-2560.

[63] K.-B. Park, S.-W. Choi, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “New single sustaining driver for AC-PDP employing voltage stress reduction technique,” in Proc. IEEE PESC, 2007, pp. 2223-2226.

[64] B.-H. Lee, C.-E. Kim, K.-B. Park, and G.-W. Moon, “A new single-stage PFC AC/DC converter with voltage-doubler rectified asymmetric half-bridge converter,” in Proc. ICPE, 2007, pp. 1179-1184.

[65] Y.-D. Kim, K.-B. Park, C.-E. Kim, and G.-W. Moon, “Band-gap reference voltage control strategy of power conditioning system for fuel cell hybrid vehicle,” in Proc. ICPE, 2007, pp. 274-277.

[66] H.-C. Lee, C.-E. Kim, H.-S. Park, K.-B. Park, and G.-W. Moon “Current stress minimizing control scheme for power factor correction (PFC) boost pre-regulator,” in Proc. ICPE, 2007, 1003-1006.

[67] K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “Voltage oscillation reduction technique for phase-shift full-bridge converter,” in Proc. IEEE PESC, 2006.

[68] C.-E. Kim, K.-B. Park, G.-W. Moon, and J.-Y. Lee, “New multi-output LLC resonant converter for high efficiency low cost PDP power module,” in Proc. IEEE PESC, 2006.

[69] K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “A new high efficiency BIBRED without input bridge rectifier,” in Proc. ICEMS, 2004.

 

JOURNAL ARTICLE
[1] X. Yang, K. Wang, J. Kim, and K.-B. Park, “Artificial neural network-based FCS-MPC for three-level inverters,” Journal of Power Electronics. (accepted)

[2] J.-E, Park, J.-K. Han, K.-B. Park, B.-H. Lee, and G.-W. Moon, “A simple charging control for electric power systems in low earth orbit satellites,” IEEE Trans. Aerospace and Electronic Systems (accepted)

[3] S. Lee, H. Jin, L. F. Vecchietti, J. Hong, K.-B. Park, P. N. Son, and D. Har, “Cooperative decentralized peer-to-peer electricity trading of nanogrid clusters based on predictions of load demand and PV power generation using a gate recurrent unit model,” IET Renewable Power Generation, vol. 15, no. 15, Nov. 2021. pp. 3505-3523.

[4] K.-B. Park, F. Kieferndorf, U. Drofenik, S. Pettersson, and F. Canales, “Optimization of LCL filter with integrated intercell transformer for two-interleaved high power grid-tied converters,” IEEE Trans. Power Electronics, vol. 35, no. 3, pp. 2317-2333, Mar. 2020.

[5] K.-B. Park, “Partial series resonant coupled-inductor boost converter for high step-up DC-DC application,” EPE Journal, vol. 28, no. 1, pp. 14-27, Jan. 2018.

[6] K.-B. Park, F. Kieferndorf, U. Drofenik, S. Pettersson, and F. Canales, “Weight minimization of LCL filters for high power converters: Impact of PWM method on power loss and power density,” IEEE Trans. Industry Applications. vol. 53, no. 3, pp. 2282-2296, May/Jun. 2017.

[7] H.-S. Youn, J.-S. Park, K.-B. Park, J.-I. Baek, and G.-W. Moon, “A digital predictive peak current control for power factor correction with low-input current distortion,” IEEE Trans. Power Electronics. vol. 31, no. 1, pp. 900-912, Jan. 2016.

[8] J.-B. Lee, K.-B. Park, J.-K. Kim, H.-S. Youn, and G.-W. Moon, “A new center-tapped half-bridge zeta converter with small transformer dc-offset current and low voltage stress,” IEEE Trans. Power Electronics, vol. 30, no. 12, pp. 6593-6603, Dec. 2015.

[9] H.-S. Kim, J.-K. Kim, K.-B. Park, H.-W. Seong, G.-W. Moon, and M.-J. Youn, “On/off control of boost PFC converters to improve light load efficiency in paralleled power supply units for servers,” IEEE Trans. Industrial Electronics, vol. 61, no. 3, pp. 1235-1242, Mar. 2014.

[10]  H.-S. Kim, H.-W. Seong, J.-H. Cho, J.-B. Lee, K.-B. Park, G.-W. Moon, and M.-J. Youn, “Start-up control to prevent overcurrent during hot-swap in paralleled dc-dc converters,” IEEE Trans. Industrial Electronics, vol. 60, no. 12, pp. 5558-5574, Dec. 2013.

[11]  B.-H. Lee, K.-B. Park, C.-E. Kim, and G.-W. Moon, “No-load power reduction technique for AC/DC adapters,” IEEE Trans. Power Electronics, vol. 27, no. 8, pp. 3685-3694, Aug. 2012.

[12]  B.-C. Kim, K.-B. Park, and G.-W. Moon, “Asymmetric PWM control scheme during hold-up time for LLC resonant converter,” IEEE Trans. Industrial Electronics, vol. 59, no. 7, pp. 2992-2997, Jul. 2012.

[13]  S.-H. Park, K.-B. Park, H.-S. Kim, G.-W. Moon, and M.-J. Youn, “Single-magnetic cell-to-cell charge equalization converter with reduced number of transformer windings,” IEEE Trans. Power Electronics, vol. 27, no. 6, pp. 2900-2911, Jun. 2012.

[14]  K.-B. Park, B.-H. Lee, G.-W. Moon, and M.-J. Youn, “Analysis on center-tap rectifier voltage oscillation of LLC resonant converter,” IEEE Trans. Power Electronics, vol. 27, no. 6, pp. 2684-2989, Jun. 2012.

[15]  K.-B. Park, G.-W. Moon, and M.-J. Youn, “High step-up boost converter integrated with a transformer-assisted auxiliary circuit employing quasi-resonant operation,” IEEE Trans. Power Electronics, vol. 27, no. 4, pp. 1974-1984, Apr. 2012.

[16]  H.-W. Seong, H.-S. Kim, K.-B. Park, G.-W. Moon, and M.-J. Youn, “High step-up DC-DC converters using zero-voltage-switching boost integration technique and light-load frequency modulation control,” IEEE Trans. Power Electronics, vol. 27, no. 3, pp. 1383-1400, Mar. 2012.

[17]  J.-H. Cho, K.-B. Park, J.-S. Park, G.-W. Moon, and M.-J. Youn, “Design of digital offset compensator eliminating transformer magnetizing current offset of phase-shift full-bridge converter,” IEEE Trans. Power Electronics, vol. 27, no. 1, pp. 331-341, Jan. 2012.

[18]  K.-B. Park, G.-W. Moon, and M.-J. Youn, “Series-input series-rectifier interleaved forward converter with a common transformer-reset-circuit for high-input-voltage-applications,” IEEE Trans. Power Electronics, vol. 26, no. 11, pp. 3242-3253, Nov. 2011.

[19]  K.-B. Park, G.-W. Moon, and M.-J. Youn, “Two-switch active-clamp forward converter with one clamp diode and delayed turn-off gate signal,” IEEE Trans. Industrial Electronics, vol. 58, no. 10, pp. 4768-4772, Oct. 2011.

[20]  K.-B. Park, G.-W. Moon, and M.-J. Youn, “Two-transformer current-fed converter with a simple auxiliary circuit for a wide duty range,” IEEE Trans. Power Electronics, vol. 26, no. 7, pp. 1901-1911, Jul. 2011.

[21]  M.-B. Kim, K.-B. Park, and M.-J. Youn, “A novel single-stage AC/DC converter with quasi-resonant zero-voltage-switching for high power factor and high efficient applications,” International Journal of Circuit Theory and Applications, vol. 39, no. 7, pp. 733-749, Jul. 2011.

[22]  K.-B. Park, G.-W. Moon, and M.-J. Youn, “Non-isolated high step-up stacked converter based on boost-integrated isolated converter,” IEEE Trans. Power Electronics, vol. 26, no. 2, pp. 577-587, Feb. 2011.

[23]  B.-C. Kim, K.-B. Park, C.-E. Kim, B.-H. Lee, and G.-W. Moon, “LLC resonant converter with adaptive link voltage variation for a high power density adapter,” IEEE Trans. Power Electronics, vol. 25, no. 9, pp. 2248-2252, Sep. 2010.

[24]  K.-B. Park, G.-W. Moon, and M.-J. Youn, “Nonisolated high step-up boost converter integrated with sepic converter,” IEEE Trans. Power Electronics, vol. 25, no. 9, pp. 2266-2275, Sep. 2010.

[25]  K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “Three-switch active-clamp forward converter with low switch voltage stress and wide ZVS range for high input voltage applications,” IEEE Trans. Power Electronics, vol. 25, no. 4, pp. 889-898, Apr. 2010.

[26]  H.-S. Park, C.-H. Kim, K.-B. Park, G.-W. Moon, and J.-H. Lee, “Design of a charge equalizer based on battery modularization,” IEEE Trans. Vehicular Technology, vol. 58, no. 7, pp. 3216-3223, Sep. 2009.

[27]  K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “PWM resonant single-switch isolated converter,” IEEE Trans. Power Electronics, vol. 24, no. 8, pp. 1876-1886, Aug. 2009.

[28]  K.-B. Park, S.-W. Choi, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “An AC-PDP single sustaining driver employing voltage stress reduction technique,” IEEE Trans. Power Electronics, vol. 24, no. 4, pp. 1124-1128, Apr. 2009.

[29]  K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “A double ended ZVS half-bridge zeta converter,” IEEE Trans. Power Electronics, vol. 2, no. 6, pp. 2838-2846, Nov. 2008.

[30]  K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn, “Voltage oscillation reduction technique for phase-shift full-bridge converter,” IEEE Trans. Industrial Electronics, vol. 54, no. 5, pp. 2779-2790, Oct. 2007.

[31]  B.-H. Lee, C.-E. Kim, K.-B. Park, and G.-W. Moon, “A new single-stage PFC AC/DC converter with low link-capacitor voltage,” Journal of Power Electronics, vol. 7, no. 4, pp. 328-335, Oct. 2007.

[32]  K.-B. Park, C.-E. Kim, G.-W. Moon, and M.-J. Youn “A new high efficiency PWM single-switch isolated converter,” Journal of Power Electronics, vol. 7, no. 4, pp. 301-309, Oct. 2007.

[33]  C.-E. Kim, S.-K. Han, K.-B. Park, and G.-W. Moon, “A new high efficiency bidirectional DC/DC converter for HEV 42 V power system,” Journal of Power Electronics, vol. 6, no. 3, pp. 271-278, Jul. 2006.

 

DOMESTIC CONFERENCE
[1] J. Kwak, K.-B. Park, and I.-G. Jang, “Comparison and analysis of overload protection strategies of SST applicable to power system in underground city considering overload,” KIPE Summer Conference, 2022.

[2] J. Song, J. Kim, S. Kim, Y. Cho, and K.-B. Park, “Performance analysis of motor drive according to increasing motor voltage of large-scale electric propulsion ship,” KIPE Summer Conference, 2022.

[3] J. Kim, J. Song, S. Kim, Y. Cho, and K.-B. Park, “Analysis of grid tied converter and LCL filter characteristics according to grid voltage and dc link voltage for 1.5 MW electric propulsion vessels,” KIPE Summer Conference, 2022.

[4] X. Yang, K. Wang, J. Kim, and K.-B. Park, “Artificial neural network based FCS-MPC for 3-level inverters,” KIPE Summer Conference, 2022.

[5] Y. Lee, K. Wang, X. Yang, and K.-B. Park, “A FPGA-based spread spectrum modulation method for harmonic performance improvement in photovoltaic inverter,” KIPE Summer Conference, 2022.

[6] J. Kim, J. Song, and K.-B. Park, “Lifetime evaluation of electric powertrain inverters,” KIEE Spring Conference, 2022.

[7] J. Song, J. Kim, S. Kim, Y. Cho, and K.-B. Park, “Performance analysis of inverter for large-scale electric propulsion ship according to switching devices,” KIEE Spring Conference, 2022.

[8] J. Kim, K. Choi, J. Song, and K.-B. Park, “Comparative analysis of inverter for IPMSM of hybrid electric propulsion system: PI-SVPWM vs. FCS-MPC,” KIEE Summer Conference, 2021. (Paper award)

[9] J. Song, J. Kim, and K.-B. Park, “Performance comparison of 3-level 800V inverter based on 650-V IGBT and 2-level 800V inverter based on 1200-V SiC MOSFET for 800-V electric propulsion systems,” KIEE Summer Conference, 2021.

[10] J.-H. Park, C.-Y. Chu, and K.-B. Park, “A study on optimal compensation circuit for wireless EV charging system considering ZPA condition and coupling coefficient variation,” KIEE Summer Conference, 2021. (Paper award)

Awards

Research

Teaching

Students