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)