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Jung, Jee-Hoon (정지훈)

Department
Department of Electrical Engineering(전기전자공학과)
Website
http://apipel.unist.ac.kr/
Lab
Advanced Power Interface & Power Electronics Lab. (전력변환 연구실)
Research Keywords
전력변환, 전력제어, 전력 인터페이스, 지능형 전력 인터페이스, Power Converter, PHIL simulation system, Wireless Power Transfer, Digital Control System, Smart Power Interface
Research Interests
The research of APIPEL is focused on power conversion, power control, and power interface technology for the various industrial applications of consumer electronics, renewable energy, electric vehicles, etc. Particular interests are concerned with power applications of smart grids, wireless power transmission, dc micro/nano grids, real-time & power hardware-in-the-loop simulation using power converter/inverter topologies, power semiconductors, and digital signal processors with intelligent signal processing and digital control algorithms.
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Issue DateTitleAuthor(s)TypeViewAltmetrics
2020-12Enhanced Dual-Active-Bridge DC-DC Converter for Balancing Bipolar Voltage Level of DC Distribution SystemLee, Jun-Young; Kim, Ho-Sung; Jung, Jee-HoonARTICLE189 Enhanced Dual-Active-Bridge DC-DC Converter for Balancing Bipolar Voltage Level of DC Distribution System
2020-09Design Methodology of Quasi-Resonant Flyback Converter with a Divided Resonant CapacitorPark, Hwa-Pyeong; Jung, Jee-HoonARTICLE7
2020-09Input voltage selection method of half-bridge series resonant inverters for all-metal induction heating applications using high turn-numbered coilsJin, Juil; Kim, Mina; Han, Jinwook, et alARTICLE13 Input voltage selection method of half-bridge series resonant inverters for all-metal induction heating applications using high turn-numbered coils
2020-08Enhanced Switching Pattern to Improve Cell Balancing Performance in Active Cell Balancing Circuit using Multi-winding TransformerLee, Sangjung; Kim, Myoungho; Baek, Ju Won, et alARTICLE44 Enhanced Switching Pattern to Improve Cell Balancing Performance in Active Cell Balancing Circuit using Multi-winding Transformer
2020-08복수의 변압기를 사용하여 독립 전력제어가 가능한 DC 배전용 다중포트 Dual-Active-Bridge 컨버터김인혁; 심주영; 이준영, et alARTICLE3
2020-08마찰전기 나노발전기를 위한 임피던스 커플러 스위치를 탑재한 3단계 전력 관리 시스템윤보경; 이준영; 정지훈ARTICLE3
2020-08Segmented Differential Power Processing Converter Unit and Control Algorithm for Photovoltaic SystemsJeong, Hoejeong; Park, Seungbin; Jung, Jee-Hoon, et alARTICLE5
2020-08A Comprehensive Overview in Control Algorithms for High Switching-Frequency LLC Resonant ConverterPark, Hwa-Pyeong; Kim, Mina; Jung, Jee-HoonARTICLE6 A Comprehensive Overview in Control Algorithms for High Switching-Frequency LLC Resonant Converter
2020-07Input Voltage Selection Method of Half-Bridge Series Resonant Inverter for All-Metal Induction Heating Application Using High Turn-numbered CoilJin, Juil; Kim, Mina; Han, Jin-Wook, et alARTICLE35
2020-05Single-Stage Voltage Balancer with High-Frequency Isolation for Bipolar LVDC Distribution SystemLee, Jun-Young; Cho, Young-Pyo; Jung, Jee-HoonARTICLE297 Single-Stage Voltage Balancer with High-Frequency Isolation for Bipolar LVDC Distribution System
2020-05Enhanced Computation Performance of Photovoltaic Models for Power Hardware-in-the-loop SimulationKim, Mina; Kwak, Sang-Kyu; Kim, Katherine A., et alARTICLE78
2020-05Effective in-laboratory test method for PV power generation with enhanced PV emulation accuracyPark, Seungbin; Kim, Mina; Jung, Jee-HoonARTICLE62 Effective in-laboratory test method for PV power generation with enhanced PV emulation accuracy
2020-04Hybrid modulation strategy of three-phase dual-active-bridge converter to improve power conversion efficiency under light load conditions in LVDC applicationsChoi, HyunJun; Jung, JeeHoonARTICLE126 Hybrid modulation strategy of three-phase dual-active-bridge converter to improve power conversion efficiency under light load conditions in LVDC applications
2020-04Analysis and Design of Three-Phase Buck Rectifier Employing UPS to Supply High Reliable DC PowerLee, Jun-Young; Heo, Kyung-Wook; Kim, Kyu-Tae, et alARTICLE114 Analysis and Design of Three-Phase Buck Rectifier Employing UPS to Supply High Reliable DC Power
2020-04FPGA Controller Design for High Frequency LLC Resonant ConvertersPark, Hwa-Pyeong; Kang, Yesung; Kang, Seokhyeong, et alARTICLE142
2020-03Isolated Three-port DC-DC Converter Employing ESS to Obtain Voltage Balancing Capability for Bipolar LVDC Distribution SystemSim, Juyoung; Lee, Jun-Young; Jung, Jee-HoonARTICLE215 Isolated Three-port DC-DC Converter Employing ESS to Obtain Voltage Balancing Capability for Bipolar LVDC Distribution System
2020-03Real-Time Test-Bed System Development Using Power Hardware-in-the-Loop (PHIL) Simulation Technique for Reliability Test of DC Nano GridHeo, Kyung-Wook; Hyun, Jun; Jung, Jee-HoonARTICLE144 Real-Time Test-Bed System Development Using Power Hardware-in-the-Loop (PHIL) Simulation Technique for Reliability Test of DC Nano Grid
2020-02Practical Design Methodology of IH and IPT Dual-Functional ApparatusKim, Mina; Park, Hwa-Pyeong; Jung, Jee-HoonARTICLE150 Practical Design Methodology of IH and IPT Dual-Functional Apparatus
2020-02Effective Magnetic Component Design of Three Phase Dual Active Bridge Converter for LVDC Distribution SystemChoi, Hyunjun; Seo, Bong-Gyo; Ryu, Myunghyo, et alARTICLE136 Effective Magnetic Component Design of Three Phase Dual Active Bridge Converter for LVDC Distribution System
2020-02Effective In-Laboratory Test Method of for PV Power Generation with Enhanced PV Emulation AccuracyPark, Seungbin; Kim, Mina; Jung, Jee-HoonARTICLE98

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