[Accepted L1 Paper]Spread Spectrum Technique for Decreasing EM Noise in High Frequency APWM HB Resonant Converter with Reduced EMI Filter Size
2019.02.11Journal title: IEEE Transactions on Power Electronics (5-yr IF: 7.710, IF: 7.151, 4.23%, L1)
Condition: Accepted
Article title: Spread Spectrum Technique for Decreasing EM Noise in High Frequency APWM HB Resonant Converter with Reduced EMI Filter Size
Authors: Hwa-Pyeong Park, Sangyeong Jeong, Mina Kim, Jingook Kim, and Jee-Hoon Jung*
Abstract
A spread spectrum technique (SST) has been proposed as a solution to mitigate electromagnetic interference (EMI) in power converters. In the previous research, the SST has been widely applied to the power converters which have insensitive voltage gain according to switching frequency variation, such as buck, boost, and flyback topologies. However, resonant converters have sensitive voltage gain according to the switching frequency variation, which cannot regulate the output voltage with the SST. In this paper, a high-frequency (HF) half-bridge (HB) resonant converter employing the SST is developed for power supply applications with 100-W power capability. The design methodology of its resonant tank and the SST is proposed to obtain the tight output voltage regulation performance and the EM noise reduction. In addition, the size reduction of EM noise filters is analyzed by employing the SST. The output voltage regulation performance and the filter size reduction will be experimentally verified using a 100-W prototype HF HB resonant converter.