A GaN driver IC with novel highly digitally adaptive dead-time control for Synchronous Rectifier Buck Converter
Journal
ECCE 2020 - IEEE Energy Conversion Congress and Exposition
Pages
3788-3792
Date Issued
2020
Author(s)
Abstract
GaN devices operating at reverse conduction region causing excessive conduction loss. Therefore, the GaN based switching converters are required to minimize the dead-time. This paper proposes a novel highly digitally adaptive dead-time control for GaN driver. A driver integrated circuit (IC) is designed in 0.18?m BCD GEN2 process to verify the concept. The measurement result achieves 0.7ns dead-time at 2A and efficiency can improve 2.1% at 2A full load compared to 10ns fixed dead-time counterpart. ? 2020 IEEE.
Subjects
DC-DC converters; Energy conversion; Gallium nitride; III-V semiconductors; Integrated circuits; Rectifying circuits; Timing circuits; Buck converters; Conduction loss; Driver IC; Driver integrated circuits; Full-load; Reverse conduction; Switching converter; Synchronous rectifier; Electric rectifiers
Type
conference paper