PCB Layout Optimization of High-Frequency Inverter for Magnetic Coupled Resonance Wireless Power Transfer System

Abstract: Magnetic coupled resonance wireless power transfer system has the advantages of long transfer distance and high efficiency. However, it needs a high-frequency AC power, and the influence of the circuit parasitic elements at high frequency cannot be ignored, which brings challenges to the research and the design of the high-frequency power for the wireless power transfer system. In this paper, the effect of the parasitic elements in the full-bridge inverter and the reasons of high-frequency ringing generated ar… Show more

“…The strategy is based on extracting the parasitic components and use simulated data to determine the layout which minimizes the parasitic effects. The analysis of parasitics impact in high-frequency operating conditions has been proposed in [7], where the optimized design of the PCB layout for high-frequency inverters devoted to wireless power transfer systems has been approached.…”

Model Identification to Validate Printed Circuit Boards for Power Applications: A New Technique

“…The strategy is based on extracting the parasitic components and use simulated data to determine the layout which minimizes the parasitic effects. The analysis of parasitics impact in high-frequency operating conditions has been proposed in [7], where the optimized design of the PCB layout for high-frequency inverters devoted to wireless power transfer systems has been approached.…”

Model Identification to Validate Printed Circuit Boards for Power Applications: A New Technique

A Comprehensive Review of High-frequency Transmission Inverters for Magnetic Resonance Inductive Wireless Charging Applications in Electric Vehicles

EMC Analysis of the PCB Layout effect at the switching node level of a GaN-Based Power converter