Author:
Rajendran Gowthamraj,Vaithilingam Chockalingam Aravind,Naidu Kanendra,Satya Prakash Kameswara,Ahmed Md Rishad
Abstract
Wide bandgap (WBG) semiconductors offer better switching and lower losses, and it is not uncommon to utilize them for high power density, high-efficiency applications. Gallium nitride (GaN) and Silicon carbide (SiC) are the most common WBG materials that are responsible for major switching level changes relative to silicon (Si) devices. This paper explores the contrast of performance between Si, SiC, and GaN devices. The output performance of Si, SiC, and GaN power devices includes efficiency, energy bandgap, thermal conductivity, carrier mobility, saturation speed, power density, switching characteristics, and conduction losses. This article also proposes a Vienna rectifier with GaN materials, which operates as a front-end rectifier on a high-density battery charger targeted at high-performance applications such as electric vehicle charging stations, aircraft applications, and welding power sources. The system would reduce the total harmonics distortion (THD) to less than 5%, and the power factor would be increased to unity to satisfy the IEEE-519 standard.
Reference24 articles.
1. Gowthamraj R., Aravind C.V., Prakash O.K.S., AIP Conf. 2137 (2019)
2. Energy-efficient converters for electric vehicle charging stations
3. On the Tradeoff Between Input Current Quality and Efficiency of High Switching Frequency PWM Rectifiers
4. Review of Commercial GaN Power Devices and GaN-Based Converter Design Challenges
5. Jones E., Wang F., Costinett D., Zhang Z., Guo B., Liu B., Ren R., ECCE. 400 (2015)
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