A systematic analysis of wide band gap semiconductor used in power electronics

Abstract

In recent years, the field of power electronics has witnessed a significant shift towards the adoption of wide bandgap (WBG) materials, marking a pivotal change in the design and efficiency of electronic devices. This paper presents a comprehensive systematic analysis of wide bandgap materials and their semiconductor applications in power electronics. Initially, the paper provides essential background information, elucidating the emerging importance of WBG materials in modern electronics. It then delves into various types of wide bandgap semiconductors, examining their fundamental operating principles and theoretical underpinnings. Subsequent sections of the paper highlight the advantages of using wide bandgap semiconductors, including their superior performance and efficiency benefits. The discussion extends to practical implementations, showcasing several existing applications of wide bandgap semiconductors in diverse power electronics scenarios. Additionally, this paper critically addresses the prevailing challenges and obstacles encountered in the application and manufacturing processes of these materials. Moreover, it offers insightful predictions about the future trajectory and potential advancements in wide bandgap device technology. The paper culminates with a concise conclusion summarizing the impact and prospects of wide bandgap devices in the realm of power electronics.