Session Details
[P2-5]Sophisticated Power Conversion 1
Wed. Jun 3, 2026 12:40 PM - 2:00 PM JST
Wed. Jun 3, 2026 3:40 AM - 5:00 AM UTC
Wed. Jun 3, 2026 3:40 AM - 5:00 AM UTC
Poster5(Event & Exhibition Hall)
Chair:Motoki Sato(ToyodenkiSeizo K.K.)
[P2-5-01]Carrier-Based PWM for Circulating Current Suppression in Dual-Parallel NPC Inverters
*Tae-Hyeon Kim1, Ui-Min Choi1 (1. Seoul National University of Science and Technology (Korea))
[P2-5-02]On the Use of Online Adaptive Space Vector Modulation for Constrained Active Thermal Control
*Ignacio Acosta1, Chengmin Li1, Petros Karamanakos2, Georgios Papafotiou1 (1. Eindhoven University of Technology (Netherlands), 2. Tampere University (Finland))
[P2-5-03]A Carrier-Based Discontinuous PWM Method for Mitigating Neutral-Point Voltage Fluctuation in Two-Parallel Interleaved Vienna Rectifier
*Juyeon Lee1, June-Seok Lee1 (1. Dankook University (Korea))
[P2-5-04]Voltage Error Compensation Method for PS-PWM in Single-Phase Seven-Level CHB Inverters
*Yisoo Park1, Eunwoo Lee1, Hyewon Kang1, June-Seok Lee1 (1. Dankook University (Korea))
[P2-5-05]High-Accuracy Synchronization Method for Wireless Control of Power Modules with Built-in Gate Drive Circuits
*Satoshi Mikami1, Keiji Wada1, Shigeyoshi Goka1 (1. Tokyo Metropolitan University (Japan))
[P2-5-06]Modulation Technique for Dual-Transformer Series-Resonant Converters to Balance Switch Currents and Limit Switching Frequency Variation
*SangHyeon Lee1, Lukas Antonio Budiwicaksana1, Dong-Choon Lee1 (1. Yeungnam University (Korea))
[P2-5-07]Zero Voltage Switching Technique Using Synchronous Rectifier Control of PWM LLC Resonant Converter for Light Load Efficiency
*Yeonghun Jeong1, Dongmin Choi1, Taewoo Kim2, Jaeil Baek1, Gun-woo Moon1 (1. KAIST (Korea), 2. IMEC USA (USA))
[P2-5-08]Reduction in Capacitor of Flying-Capacitor for a 3+1-Level Converter
*Akihide Mizukawa1, Keisuke Kusaka1 (1. Nagaoka University of Technology (Japan))
[P2-5-09]Carrier-based PWM for Current Source Inverters with Overlap-Time Compensation and Switching-Loss Minimization
*takanobu ohno1, Predrag Pejovic2, Spasoje Miric3 (1. Innsbruck Univ. (Austria), 2. Belgrade Univ. (Serbia), 3. TUWien (Austria))
[P2-5-10]Investigation of Control Quantization in Decentralized Modular Active Cell Control for Multi-Active Bridge Converters
*Niklas Stöcklein1, Raffael Schwanninger1, Martin Lindner1, Martin März1 (1. Institute for Power Electronics, Friedrich-Alexander-Universität Erlangen-Nürnberg (Germany))
[P2-5-11]Boosted Gate Driving with Active Damping to Reduce Turn-Off Losses in High-Power SiC MOSFETs
*Max J. Watson1, Sebastian Neira1, Stephen Finney1, Paul D. Judge1 (1. University of Edinburgh (UK))
[P2-5-12]Propagation–Coupling Factorization Model for 2-D Waveguide Wireless Power Transfer
Naoya Takahashi1, *Yuichi Masuda2, Katsuhiro Hata1 (1. Shibaura Institute of Technology (Japan), 2. The University of Tokyo (Japan))
[P2-5-13]A Virtual SVM Strategy with Simultaneous Capacitor Voltages Balancing and Common-Mode Voltage Reduction for Three-Level Neutral-Point-Clamped Inverters
Yuttana Kumsuwan1, *Sutthimat Mueangngoen1 (1. Chiang Mai University (Thailand))
[P2-5-14]State-Space-Bilinear SOGI Digital Filter Design for Spread Spectrum Modulation of a Single-Phase PWM Rectifier
*Chang Min Lee1, Jee Hoon Jung1 (1. Ulsan National Institute of Science and Technology (UNIST) (Korea))
[P2-5-15]Improved Current Regulation in CRM-Operated Totem-Pole PFC by Replacing the Blank Interval with a Modified DCM at the Zero Crossing
*Sota Sasaki1, Cheng Huang1, Takanori Isobe1 (1. University of Tsukuba (Japan))
[P2-5-16]Optimizing ZVS-Capable DCM for High-Efficiency Grid-Tied Inverters: Can It Be Better than BCM?
*Cheng Huang1, Sota Sasaki1, Takanori Isobe1 (1. University of Tsukuba (Japan))
[P2-5-17]Passive Common-Noise Canceller using Edgewise Winding for SiC Traction Inverters
*Takashi Sawada1,2, Satoshi Ogasawara1, Kazumasa Ide1, Koji Shiozaki1 (1. Nagoya University (Japan), 2. Power Design Laboratory Co., Ltd. (Japan))